% MOOSE/phase_field
% "This system of variational equations was implemented using the phase field, porous flow, and tensor mechanics modules of ... (MOOSE) ..."
@Article{Ip_2023,
  author  = {Sabrina C. Y. Ip and Ronaldo I. Borja},
  title   = {Modeling heterogeneity and permeability evolution in a compaction band using a phase-field approach},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = dec,
  year    = 2023,
  volume  = 181,
  pages   = {105441 (38 pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2023.105441}}
}

% MOOSE
% "The concurrent simulation approach is facilitated ... using the MultiApp and Transfers systems from the MOOSE framework..."
@Article{JKe_2023,
  author  = {Jia-Hong Ke},
  title   = {{Microstructure modeling of nuclear structural materials: Recent progress and future directions}},
  journal = {Computational Materials Science},
  month   = oct,
  year    = 2023,
  volume  = 230,
  pages   = {112503 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112503}}
}

% MOOSE/GOLEM
% "The investigation ... using the GOLEM open-source FEM package resulted in several significant findings, ..."
% https://www.researchgate.net/publication/388110336_Thermal-Hydro-Mechanical_coupled_numerical_analysis_of_a_faulted_zone_in_a_Quebec%27s_potential_geothermal_engineering_site
@InProceedings{Vadiee_2023,
  author    = {Saeed Vadiee and Biao Li and Jasmin Raymond and Mafalda Miranda},
  title     = {{Thermal-hydro-mechanical coupled numerical analysis of a faulted zone in a Quebec's potential geothermal engineering site}},
  booktitle = {{Proceedings of the 76th Annual Canadian Geotechnical Society Conference (GeoSaskatoon 2023)}},
  address   = {Saskatoon, Saskatchewan, Canada},
  month     = oct # {~1--4,},
  year      = 2023,
  note      = {\url{https://tinyurl.com/238bm4ut}}
}

% MOOSE
% "In this work, we make use of 3 simulation tools: ... The Compressible Navier-Stokes Finite Volume module of MOOSE"
% https://www.researchgate.net/publication/378654180_Simulation_of_gas_dynamics_in_the_chamber_of_Inertial_Fusion_Energy_Systems_using_state-of-the-art_numerical_libraries
% https://doi.org/10.13182/T129-42523
% DOI was not working when I initially tried it.
@InProceedings{Habtemariam_2023,
  author    = {Nahom Habtemariam and Carlo Fiorina and Sebastian Schunert and Susana Reyes},
  title     = {{Simulation of gas dynamics in the chamber of Inertial Fusion Energy Systems using state-of-the-art numerical libraries}},
  booktitle = {{Proceedings of the ANS Winter Conference and Expo}},
  address   = {Washington, D. C.},
  pages     = {276--279},
  month     = nov # {~12--15,},
  year      = 2023,
  note      = {\url{https://tinyurl.com/mtzd9bps}}
}

% MOOSE
% "MOOSE ... is used to implement the Stokes-flow simulations, ..."
@mastersthesis{Zwarts_thesis,
  author = {S. F. Zwarts},
  school = {Delft University of Technology},
  title  = {Homogenization techniques in digital rock physics},
  note   = {\url{http://resolver.tudelft.nl/uuid:0da09ac8-4a31-411b-baa7-a88bb7d574f7}},
  month  = may,
  year   = 2023
}

% MOOSE
% "The finite element method based numerical simulations were performed in ... (MOOSE) software..."
% See also: Kunwar_2022b
% author:kunwar author:hektor crystal structure informed mesoscale deformation model
@Misc{Kunwar_2023,
  author       = {Anil Kunwar and Haoran Ma and Johan Hektor},
  title        = {{Crystal structure informed mesoscale deformation model for HCP Cu$_6$Sn$_5$ intermetallic compound}},
  month        = may,
  year         = 2023,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2305.10582}}
}

% MOOSE/BlackBear
% "We employed ... (MOOSE) ... as the foundation for finite element computations, and extended its capabilities for ... BlackBear ..."
@Article{Recuero_2023b,
  author  = {Antonio Recuero and Markian Petkov and Benjamin W. Spencer and Pierre-Alexandre Juan},
  title   = {{Continuum damage mechanics modeling of high-temperature flaw propagation: Application to creep crack growth in 316H standardized specimens and nuclear reactor components}},
  journal = {Journal of Pressure Vessel Technology},
  month   = oct,
  year    = 2023,
  volume  = 145,
  number  = 5,
  pages   = {051507 (16 pages)},
  note    = {\url{https://doi.org/10.1115/1.4062953}, Paper No: PVT-23-1057, Tech. Report INL/JOU-23-71598, \url{https://www.osti.gov/biblio/1992084}}
}

% MOOSE/BISON
% https://www.osti.gov/biblio/2205323
@InProceedings{Toptan_2023b,
  author    = {Aysenur Toptan and Jason D. Hales and Wen Jiang},
  title     = {{Bison verification and validation activities for TRISO}},
  booktitle = {{Proceedings of the 2023 International Mechanical Engineering Congress and Exposition (IMECE)}},
  address   = {New Orleans, Louisiana},
  pages     = {V007T08A083 (6 pages)},
  month     = oct # {~29--} # nov # {~2,},
  year      = 2023,
  note      = {\url{https://doi.org/10.1115/IMECE2023-111271}, INL Technical Report INL/CON-23-71313}
}

% MOOSE/FENNEC
% "FENNEC itself was developed based on the MOOSE modeling framework ..."
% Tech. Report PDF: https://www.osti.gov/servlets/purl/1968698
@Article{Wiechert_2023,
  author  = {Alexander I. Wiechert and Austin P. Ladshaw and {Yong-ha} Kim and Costas Tsouris and Sotira Yiacoumi},
  title   = {Simulation of radioactive plume transport in the atmosphere including dynamics of particle aggregation and breakup},
  journal = {Journal of Environmental Radioactivity},
  month   = jul,
  year    = 2023,
  volume  = 263,
  pages   = {107167 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jenvrad.2023.107167}, Oak Ridge National Laboratory Technical Report: \url{https://www.osti.gov/biblio/1968698}}
}

% MOOSE
% "To facilitate a computationally efficient simulation ... we use the ... (MOOSE) framework"
@InProceedings{Abdullah_2023,
  author    = {A. Abdullah and H. U. Rashid and O. M. Olorode},
  title     = {{Numerical and experimental studies of coupled THM processes in fractured tight rocks}},
  booktitle = {{Proceedings of the 57th U.S. Rock Mechanics/Geomechanics Symposium}},
  address   = {Atlanta, Georgia},
  pages     = {ARMA-2023-0810 (11 pages)},
  month     = jun,
  year      = 2023,
  note      = {\url{https://doi.org/10.56952/ARMA-2023-0810}}
}

% MOOSE/SAM
% https://www.osti.gov/biblio/2283497
@TechReport{Hui_2023,
  author      = {Rui Hu and Ling Zou and Travis Mui and Daniel J. O'Grady and Guojun Hu and Steven Chen and Thomas Jayasankar},
  title       = {{SAM Assessment Report}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = dec,
  year        = 2023,
  number      = {ANL/NSE-23/93},
  note        = {\url{https://doi.org/10.2172/2283497}}
}

% MOOSE
% "The source code for the model developed in this work is available at a public GitHub repository... It is built on ... (MOOSE)"
@Article{Ladshaw_2023,
  author  = {Austin P. Ladshaw and Sreshtha Sinha Majumdar and Josh A. Pihl},
  title   = {Experiments and modeling to evaluate global reaction kinetics of three-way catalyst light off for net-zero carbon fuels and selected fuel blends},
  journal = {Applied Catalysis B: Environmental},
  month   = may,
  year    = 2023,
  volume  = 324,
  pages   = {122281 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.apcatb.2022.122281}}
}

% MOOSE
% "The constitutive models described in the previous sections were implemented in ... MOOSE ..."
@Article{Duarte_2023,
  author  = {Camilo A. Duarte and Marisol Koslowski},
  title   = {{Hot-spots in polycrystalline $\beta$-tetramethylene tetranitramine ($\beta$-HMX): The role of plasticity and friction}},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = feb,
  year    = 2023,
  volume  = 171,
  pages   = {105157 (26 pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2022.105157}}
}

% MOOSE/Pronghorn
% "The intermediate-fidelity code chosen for this work is ... Pronghorn ..."
@Article{Reger_2023b,
  author  = {David Reger and Elia Merzari and Paolo Balestra and Sebastian Schunert and Yassin Hassan and Haomin Yuan},
  title   = {{An improved pressure drop correlation for modeling localized effects in a pebble bed reactor}},
  journal = {Nuclear Engineering and Design},
  month   = mar,
  year    = 2023,
  volume  = 403,
  pages   = {112123 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2022.112123}}
}

% MOOSE/BISON
% "Simulations of single particles and a homogenized composite specimen were performed using BISON ... built on ... MOOSE"
@Article{Woolstenhulme_2023,
  author  = {Nicolas Woolstenhulme and Daniel Chapman and Nikolaus Cordes and Austin Fleming and Connie Hill and Colby Jensen and Jason Schulthess and Matthew Ramirez and Kory Linton and Danny Schappel and Gokul Vasudevamurthy},
  title   = {{TREAT testing of additively manufactured SiC canisters loaded with high density TRISO fuel for the Transformational Challenge Reactor Project}},
  journal = {Journal of Nuclear Materials},
  month   = mar,
  year    = 2023,
  volume  = 575,
  pages   = {154204 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.154204}}
}

% MOOSE
% "The resulting set of equations is ... implemented in ... MOOSE ..."
@Article{TZhang_2023,
  author  = {Tao Zhang and Mohsen Sotoudeh and Axel Gro{\ss} and Robert M. McMeeking and Marc Kamlah},
  title   = {{3D microstructure evolution in Na$_x$FePO$_4$ storage particles for sodium-ion batteries}},
  journal = {Journal of Power Sources},
  month   = may,
  year    = 2023,
  volume  = 565,
  pages   = {232902 (12 pages)},
  note    = {\url{https://doi.org/10.1016/j.jpowsour.2023.232902}}
}

% MOOSE
% "In this work, MOOSE solves a simplified thermal-fluids model..."
% https://hdl.handle.net/2142/122024
@phdthesis{Fairhurst_thesis,
  author = {Roberto E. {Fairhurst Agosta}},
  school = {University of Illinois at Urbana-Champaign},
  title  = {Enhanced method for the support of experiment safety analysis},
  note   = {\url{https://www.ideals.illinois.edu/items/129214}},
  month  = nov,
  year   = 2023
}

% MOOSE/IBAMR
% DOI was not active the first time I checked it.
% https://cdn.techscience.cn/uploads/attached/file/20240109/20240109143609_44466.pdf
% https://doi.org/10.32604/icces.2023.010442
% ICCES, 2023, vol.27, no.3
@InProceedings{ZLin_2023d,
  author    = {Zhonglu Lin and Dongfang Liang and Yu Zhang},
  title     = {How travelling wavelength affects hydrodynamic performance of two linear-accelerating mirror-symmetric fish-like swimmers},
  booktitle = {{Proceedings of the 29th International Conference on Computational \& Experimental Engineering and Sciences (ICCES 2023)}},
  address   = {Shenzhen, China},
  pages     = {xx (9 pages)},
  month     = may # {~26--29,},
  year      = 2023,
  note      = {\url{http://tinyurl.com/2fmfrykk}}
}

% MOOSE/Grizzly
% "The computational component of the work scope included ... development of intergranular facture models (XFEM-based CZM capability) in the INL MOOSE-Grizzly code."
% https://www.osti.gov/biblio/2222395
% https://www.osti.gov/servlets/purl/2222395
@TechReport{Heuser_2023,
  author      = {Brent Heuser},
  title       = {Experimental and computational studies of stress corrosion cracking of alloys 308/309 and 82/182 weldments in corrosive and radiation environment},
  institution = {USDOE Office of Nuclear Energy (NE), Nuclear Energy University Program (NEUP)},
  day         = 28,
  month       = nov,
  year        = 2023,
  number      = {DE-NE0008699},
  note        = {\url{https://doi.org/10.2172/2222395}}
}

% MOOSE/Griffin
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_67085.pdf
@TechReport{Jaradat_2023c,
  author      = {Mustafa Kamel {Mohammad Jaradat} and Javier Ortensi and Gang Yang},
  title       = {{Multiphysics analysis of the MSRE experiment using Griffin-SAM coupled code system}},
  institution = {Idaho National Laboratory},
  day         = 17,
  month       = nov,
  year        = 2023,
  number      = {INL/CON-23-73281},
  note        = {\url{https://www.osti.gov/biblio/2248074}}
}

% MOOSE
% "The newly contributed models leverage a variety of NEAMS applications and physics phenomena: MOOSE ..., Griffin ..., Pronghorn ..., SAM ..."
@TechReport{Shemon_2023d,
  author      = {Emily Shemon and Jun Fang and Thanh Hua and Yinbin Miao and Nicolas Stauff and Abdalla Abou-Jaoude and Guillaume Giudicelli and Vasileios Kyriakopoulos and Mauricio Tano and Samuel Walker},
  title       = {{NEAMS model contributions in 2023 to the National Reactor Innovation Center Virtual Test Bed for use by industry and other stakeholders}},
  institution = {Argonne National Laboratory},
  day         = 15,
  month       = dec,
  year        = 2023,
  number      = {ANL/NEAMS-23/8},
  note        = {\url{https://doi.org/10.2172/2229905}}
}

% MOOSE
% "We performed a quasi-static generalized plane-strain boundary value problem with ... MOOSE..."
@Article{Riley_2023,
  author  = {David M. Riley and Julio R. Valdes and Itai Einav and Fran{\c{c}}ois Guillard},
  title   = {Influence of shaped boundaries on propagating compaction bands in brittle porous media},
  journal = {Physical Review E},
  month   = dec,
  year    = 2023,
  volume  = 108,
  number  = 6,
  pages   = {064906 (7 pages)},
  note    = {\url{https://doi.org/10.1103/PhysRevE.108.064906}}
}

% VERA/MOOSE
% "Perl ... needed to build libmesh/MOOSE/Peregrine and to run the VERA input parser react2xml.pl"
@TechReport{Baird_2023,
  author      = {Mark L. Baird and Aaron M. Graham and Roscoe A. Bartlett and Ronald W. Lee and Robert Alexander Lefebvre},
  title       = {{VERA 4.4 Installation Guide}},
  institution = {Oak Ridge National Laboratory},
  day         = 27,
  month       = oct,
  year        = 2023,
  number      = {ORNL/SPR-2023/3194},
  note        = {\url{https://doi.org/10.2172/2217705}}
}

% libMesh/IBAMR
% "In this study, a modified version ... ConstraintIB ... within ... IBAMR ... was employed for simulation."
% author:lin author:liang schooling hinders
@Misc{ZLin_2023c,
  author       = {Zhonglu Lin and Dongfang Liang and Yu Zhang},
  title        = {In-phase schooling hinders linear acceleration in wavy hydrofoils paired in parallel across various wavelengths},
  month        = dec,
  year         = 2023,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2312.07427}}
}

% MOOSE/BISON
% https://www.osti.gov/biblio/1991585
@TechReport{Dhulipala_2023,
  author      = {Somayajulu L. N. Dhulipala and Daniel Schwen and Yifeng Che and Ryan Sweet and Aysenur Toptan and Zachary Prince and Peter German and Stephen Novascone},
  title       = {{Massively parallel Bayesian model calibration and uncertainty quantification with applications to nuclear fuels and materials}},
  institution = {Idaho National Laboratory},
  day         = 1,
  month       = jun,
  year        = 2023,
  number      = {INL/RPT-23-73383},
  note        = {\url{https://doi.org/10.2172/1991585}}
}

% MOOSE/SAM
@Article{YLiu_2023,
  author  = {Yang Liu and Travis Mui and Ziyu Xie and Rui Hu},
  title   = {{Benchmarking FFTF LOFWOS Test \#13 using SAM code: Baseline model development and uncertainty quantification}},
  journal = {Annals of Nuclear Energy},
  month   = nov,
  year    = 2023,
  volume  = 192,
  pages   = {110010 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2023.110010}}
}

% MOOSE/BISON
% "... we describe BISON simulations of both FeCrAl and Zircaloy cladded fuel rods..."
@Article{Sweet_2023,
  author  = {R. T. Sweet and G. Pastore and B. D. Wirth},
  title   = {{Analysis of FeCrAl cladding performance under loss-of-coolant accident conditions}},
  journal = {Nuclear Engineering Design},
  month   = dec,
  year    = 2023,
  volume  = 414,
  pages   = {112556 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112556}}
}

% MOOSE
% "The numerical results presented in this section are obtained using RACCOON ... based on MOOSE..."
@Article{Vajari_2023,
  author  = {Sina {Abrari Vajari} and Matthias Neuner and Prajwal Kammardi Arunachala and Christian Linder},
  title   = {Investigation of driving forces in a phase field approach to mixed mode fracture of concrete},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = dec,
  year    = 2023,
  volume  = {417 Part A},
  pages   = {116404 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2023.116404}}
}

% MOOSE/EEL
% "All numerical results presented in this work are from an implementation of the [MOOSE-based] framework called EEL being developed at Argonne National Laboratory."
@Article{THu_2023,
  author  = {Tianchen Hu and Mark Christian Messner and Pallab Barai and Bipul Barua},
  title   = {{A three-dimensional, thermodynamically and variationally consistent, fully coupled, electro-chemo-thermo-mechanical model of solid-state batteries}},
  journal = {Journal of The Electrochemical Society},
  month   = dec,
  year    = 2023,
  volume  = 170,
  number  = 12,
  pages   = {123501 (xx pages)},
  note    = {\url{https://doi.org/10.1149/1945-7111/ad09f5}}
}

% MOOSE/DwarfElephant
% "... we precompute and store an affine decomposition using DwarfElephant..."
@Article{Aretz_2023,
  author  = {Nicole Aretz and Peng Chen and Denise Degen and Karen Veroy},
  title   = {{A greedy sensor selection algorithm for hyperparameterized linear Bayesian inverse problems}},
  journal = {Journal of Computational Physics},
  month   = feb,
  year    = 2023,
  volume  = 498,
  pages   = {112599 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jcp.2023.112599}, ArXiv e-print: \url{https://arxiv.org/abs/2301.12019}}
}

% MOOSE
% "This project aims to validate and improve the capabilities of a thermal model of the MPC-32 canister and HI-STORM overpack, using ... (MOOSE)"
@InProceedings{Okyay_2023,
  author    = {Sinan Okyay and Elia Merzari and David Alan Reger and Guillaume Giudicelli and Victor {Coppo Leite} and Alexander Lindsay},
  title     = {{Development of a HI-STORM overpack and MPC-32 thermal-hydraulic model with the MOOSE framework}},
  booktitle = {{Proceedings of the 30th International Conference on Nuclear Engineering (ICONE30)}},
  address   = {Kyoto, Japan},
  pages     = {1036 (xx pages)},
  publisher = {Japan Society of Mechanical Engineers},
  month     = may # {~21--26,},
  year      = 2023,
  note      = {\url{https://doi.org/10.1299/jsmeicone.2023.30.1036}}
}

% MOOSE/BISON
% "We use a BISON and THM coupled model to solve the fuel's rod temperature distribution ..."
@InProceedings{Machado_2023,
  author    = {Luiz C. {Aldeia Machado} and Elia Merzari and William Walters},
  title     = {{Neutronics and thermal-hydraulics analysis of RIA transients for high-burnup fuels}},
  booktitle = {{Proceedings of the 30th International Conference on Nuclear Engineering (ICONE30)}},
  address   = {Kyoto, Japan},
  pages     = {1482 (xx pages)},
  publisher = {Japan Society of Mechanical Engineers},
  month     = may # {~21--26,},
  year      = 2023,
  note      = {\url{https://doi.org/10.1299/jsmeicone.2023.30.1482}}
}

% MOOSE
@Article{Crozier_2023,
  author  = {Josh Crozier and Leif Karlstrom and Emily Montgomery-Brown and Mario Angarita and Val{\'{e}}rie Cayol and Mary Grace Bato and Taiyi A. Wang and Ronni Grapenthin and Tara Shreve and Kyle Anderson and Ana Astort and Olivier Bodart and Flavio Cannav{\`{o}} and Gilda Currenti and Farshid Dabaghi and Brittany A. Erickson and Deepak Garg and Matthew Head and Adriana Iozzia and Young Cheol Kim and H{\'{e}}l{\`{e}}ne Le M{\'{e}}vel and Camila Novoa Lizama and Cody Rucker and Francesca Silverii and Elisa Trasatti and Yan Zhan},
  title   = {{Understanding the drivers of volcano deformation through geodetic model verification and validation}},
  journal = {Bulletin of Volcanology},
  month   = nov,
  year    = 2023,
  volume  = 85,
  number  = 12,
  pages   = {74 (23 pages)},
  note    = {\url{https://doi.org/10.1007/s00445-023-01687-4}}
}

% MOOSE/Redback
% "This ... is implemented in the Redback open-source simulator ..., which is based on ... MOOSE"
@Article{Poulet_2023,
  author  = {Thomas Poulet and Heather A. Sheldon and Ulrich Kelka and Pouria Behnoudfar},
  title   = {Impact of permeability anisotropy misalignment on flow rates predicted by hydrogeological models},
  journal = {Hydrogeology Journal},
  month   = dec,
  year    = 2023,
  volume  = 31,
  number  = 8,
  pages   = {2129--2137},
  note    = {\url{https://doi.org/10.1007/s10040-023-02708-4}}
}

% MOOSE
% https://www.researchgate.net/publication/372950826_Fast_and_Accurate_Reduced-Order_Modeling_of_a_MOOSE-based_Additive_Manufacturing_Model_with_Operator_Learning
@Article{Yaseen_2023,
  author  = {Mahmoud Yaseen and Dewen Yushu and Peter German and Xu Wu},
  title   = {{Fast and accurate reduced-order modeling of a MOOSE-based additive manufacturing model with operator learning}},
  journal = {The International Journal of Advanced Manufacturing Technology},
  month   = dec,
  year    = 2023,
  volume  = 129,
  number  = {7--8},
  pages   = {3123--3139},
  note    = {\url{https://doi.org/10.1007/s00170-023-12471-1}, ArXiv e-print: \url{https://arxiv.org/abs/2308.02462}}
}

% MOOSE/RELAP-7
% "... pressure propagation models are validated against RELAP-7 shock tube problems for gas-gas and liquid-liquid domains."
% https://events.kfupm.edu.sa/event/132/papers/29/files/268-Full_Paper_Batayneh_SCOPE_ver02.pdf
@InProceedings{Batayneh_2023,
  author    = {Ibrahim Batayneh and Dmitry Grishchenko and Pavel Kudinov},
  title     = {{Modelling of triggering and steam explosion pressure propagation with validation against KROTOS experiments}},
  booktitle = {{Proceedings of the Saudi International Conference on Nuclear Power Engineering (SCOPE 2023)}},
  address   = {Dhahran, Saudi Arabia},
  pages     = {23029 (4 pages)},
  month     = nov # {~13--15,},
  year      = 2023,
  note      = {\url{https://tinyurl.com/2847keth}}
}

% MOOSE
% "Eqs. (13)-(15) are implemented by FEM in the package NIsoS developed by authors based on MOOSE framework"
@Article{YYang_2023b,
  author  = {Yangyiwei Yang and Patrick K{\"{u}}hn and Mozhdeh Fathidoost and Bai-Xiang Xu},
  title   = {Micromagnetics and multiscale hysteresis simulations of permanent magnets},
  journal = {COMPEL -- The International Journal for Computation and Mathematics in Electrical and Electronic Engineering},
  month   = nov,
  year    = 2023,
  volume  = 42,
  number  = 5,
  pages   = {993--1006},
  note    = {\url{https://doi.org/10.1108/COMPEL-12-2022-0424}, ArXiv e-print: \url{https://arxiv.org/abs/2304.05343}}
}

% MOOSE
% "Fluid flow simulations are performed using the PorousFlow module of the open-source finite element code MOOSE..."
@Article{Sheldon_2023,
  author  = {Heather A. Sheldon and Vincent Crombez and Thomas Poulet and Ulrich Kelka and Marcus Kunzmann and Emily Kerrison},
  title   = {{Realistic permeability distributions in faults and sediments: The key to predicting fluid flow in sedimentary basins}},
  journal = {Basin Research},
  month   = dec,
  year    = 2023,
  volume  = 35,
  number  = 6,
  pages   = {2118--2139},
  note    = {\url{https://doi.org/10.1111/bre.12792}}
}

% MOOSE
% "... we propose two optimization schemes for commonly used multiphysics coupling data transmission methods based on the MOOSE framework."
% https://books.google.com/books?hl=en&lr=lang_en&id=kQ3iEAAAQBAJ&oi=fnd&pg=PA3&dq=libmesh&ots=kleU5Z48gl&sig=W59n55Exe6x7SuUaZeziYwQWkr4#v=onepage&q=libmesh&f=false
@InProceedings{Shi_2023,
  author    = {Wencheng Shi and Nan Hu and Jiangsu Du and Dan Huang and Yutong Lu},
  title     = {{Enhancing multi-physics coupling on ARM many-core cluster}},
  booktitle = {{Proceedings of the 15th International Symposium on Advanced Parallel Processing Technologies (APPT 2023)}},
  address   = {Nanchang, China},
  editor    = {Chao Li and Zhenhua Li and Li Shen and Fan Wu and Xiaoli Gong},
  pages     = {3--18},
  publisher = {Springer, Singapore},
  month     = aug # {~4--6,},
  year      = 2023,
  note      = {Lecture Notes in Computer Science, Volume 14103, \url{https://doi.org/10.1007/978-981-99-7872-4_1}}
}

% MOOSE
% "Here, we use the open-source MOOSE software package to establish a phase-field model for Mg-electrodeposition ..."
@Article{JWang_2023,
  author  = {Jiachen Wang and Yuhong Zhao and Hua Hou},
  title   = {Phase-field simulation of interface growth of magnesium metal anodes during electrodeposition},
  journal = {Journal of Energy Storage},
  month   = dec,
  year    = 2023,
  volume  = {73, Part C},
  pages   = {109077 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.est.2023.109077}}
}

% MOOSE
@Article{RLiu_2023,
  author  = {Ruijie Liu and Wencheng Jin and Logan Harbour and Fande Kong and Cody Permann and Derek Gaston and Robert Podgorney},
  title   = {A robust interface finite element formulation for modeling brittle material failure problems},
  journal = {Inernational Journal for Numerical Methods in Engineering},
  month   = dec,
  year    = 2023,
  volume  = 124,
  number  = 23,
  pages   = {5356--5374},
  note    = {\url{https://doi.org/10.1002/nme.7298}}
}

% MOOSE/SAM
% "To facilitate code development, SAM utilizes ... (MOOSE) [2], and ... (libMesh)"
% https://www.osti.gov/biblio/2202813
@TechReport{Mui_2023,
  author      = {Travis Mui and Yifan Mao and Thanh Hua and Ling Zou and Rui Hu and Quan Zhou},
  title       = {{SAM code development for source term modeling in fluoride-salt-cooled high-temperature reactors}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2023,
  number      = {ANL/NSE-23/78},
  note        = {\url{https://doi.org/10.2172/2202813}}
}

% MOOSE
% "... MOOSE ... was leveraged in modeling selective leaching."
@TechReport{Lawrence_2023,
  author      = {Svetlana Lawrence and Vaibhav Yadav and Daniel Schwen and Daniel van Vanwasshenova and Jiheon Jun and James R. Keiser and John E. {Wade IV} and Xiang Chen and Dongjin Du and Pranav Karve and Sankaran Mahadevan},
  title       = {Novel approaches and technologies for aging management},
  institution = {Idaho National Laboratory},
  day         = 26,
  month       = sep,
  year        = 2023,
  number      = {INL/RPT-23-74593},
  note        = {\url{https://www.osti.gov/biblio/2008367}}
}

% MOOSE
% "Computational cost of PRIMME, SPPARKS and MOOSE for the 20,000 grain simulation"
@phdthesis{Melville_thesis,
  author = {Joseph Melville},
  school = {University of Florida},
  title  = {Leveraging machine learning frameworks for efficient, data driven grain growth models},
  note   = {\url{https://www.proquest.com/openview/083b15a401524e1828277b93e5b95051/1}},
  month  = dec,
  year   = 2023
}

% BISON
% "These governing equations are solved numerically using the Bison fuel performance code..."
@Article{Chakroborty_2023,
  author  = {Promit Chakroborty and Somayajulu L. N. Dhulipala and Yifeng Che and Wen Jiang and Benjamin W. Spencer and Jason D. Hales and Michael D. Shields},
  title   = {{General multi-fidelity surrogate models: Framework and active learning strategies for efficient rare event simulation}},
  journal = {Journal of Engineering Mechanics},
  month   = dec,
  year    = 2023,
  volume  = 149,
  number  = 12,
  pages   = {04023096 (xx pages)},
  note    = {\url{https://doi.org/10.1061/JENMDT.EMENG-7111}, ArXiv e-print: \url{https://arxiv.org/abs/2212.03375}}
}

% MOOSE/BlueCRAB
% https://www.osti.gov/biblio/2203272
@TechReport{Behne_2023,
  author      = {Patrick Behne and Mustafa K. Jaradat and Namjae Choi and Stefano Terlizzi and Vincent M. Labour{\'{e}}},
  title       = {{Development of a BlueCRAB/MELCOR framework for supporting realistic mechanistic source term calculations in microreactors}},
  institution = {Idaho National Laboratory},
  day         = 9,
  month       = sep,
  year        = 2023,
  number      = {INL/RPT-23-74793},
  note        = {\url{https://doi.org/10.2172/2203272}}
}

% MOOSE
% "The PF model is solved using the MOOSE software ..."
% Note 1: The DOI was not active when I first tried it.
% https://proceedings.open.tudelft.nl/seg23/article/view/630
% Note 2: the conference paper is two pages, but the ArXiv e-print is much longer (67 pages)
% so this may appear as a journal article at some point.
% author:sac-morane author:veveakis phase-field discrete element method
@InProceedings{SacMorane_2023,
  author    = {Alexandre Sac-Morane and Manolis Veveakis and Hadrien Rattez},
  title     = {{A phase-field discrete element method to study chemo-mechanical coupling in granular materials}},
  booktitle = {{Proceedings of the 2023 Symposium on Energy Geotechnics (SEG23)}},
  address   = {Delft, Netherlands},
  month     = oct # {~3--5,},
  year      = 2023,
  note      = {\url{https://doi.org/10.59490/seg.2023.630}, ArXiv e-print: \url{https://arxiv.org/abs/2310.15718}}
}

% MOOSE
% https://www.osti.gov/biblio/2201960
@TechReport{Walker_2023b,
  author      = {Samuel Austin Walker and Mauricio Tano and Abdalla Abou-Jaoude},
  title       = {{Application of NEAMS multiphysics framework for species tracking in molten salt reactors}},
  institution = {Idaho National Laboratory},
  day         = 31,
  month       = aug,
  year        = 2023,
  number      = {INL/RPT-23-74376},
  note        = {\url{https://doi.org/10.2172/2201960}}
}

% MOOSE/phase_field
% "All the above equations are solved in the weak form using ... MOOSE ..."
% https://books.google.com/books?hl=en&lr=&id=J-_cEAAAQBAJ&oi=fnd&pg=PA75&ots=5VvpSE-k0p&sig=qc1FNDoj2awDH015VPIpamSJyJM#v=onepage&q&f=false
@InProceedings{Bandyopadhyay_2023b,
  author    = {Soumya Bandyopadhyay and Somnath Bhowmick and Rajdip Mukherjee},
  title     = {{Effect of external magnetic field on grain boundary migration in non-magnetic systems: A phase-field study}},
  booktitle = {{Proceedings of the International Conference on Metallurgical Engineering and Centenary Celebration (METCENT 2023)}},
  address   = {Varanasi, India},
  editor    = {Sudipta Patra and Subhasis Sinha and G. S. Mahobia and Deepak Kamble},
  pages     = {75--82},
  month     = oct # {~26--28,},
  year      = 2023,
  note      = {\url{https://doi.org/10.1007/978-981-99-6863-3_9}}
}

% MOOSE
% "The predicted results are compared against FEM results obtained using MOOSE."
@Article{DLiu_2023,
  author  = {Donglai Liu and Hailong Chen},
  title   = {Numerical modeling thermo-hygro-mechanical coupling of cross-ply laminate composites using a nonlocal discrete approach},
  journal = {Composite Structures},
  month   = dec,
  year    = 2023,
  volume  = 326,
  pages   = {117618 (14 pages)},
  note    = {\url{https://doi.org/10.1016/j.compstruct.2023.117618}}
}

% MOOSE/BISON
@Article{Miao_2023b,
  author  = {Yinbin Miao and Aaron Oaks and Kun Mo and Shipeng Shu and Nicholas Fassino and Christopher Matthews and Stephen Novascone and Abdellatif M. Yacout},
  title   = {{BISON-FIPD integration enhanced low-burnup SFR metallic fuel swelling model evaluation framework}},
  journal = {Nuclear Engineering and Design},
  month   = dec,
  year    = 2023,
  volume  = 414,
  pages   = {112611 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112611}}
}

% MOOSE
% "All the codes are developed within the MOOSE framework to facilitate multiphysics coupling"
% https://publications.anl.gov/anlpubs/2023/10/185187.pdf
@TechReport{Stauff_2023,
  author      = {N. Stauff and A. Abdelhameed and Y. Cao and N. Fassino and L. Ibarra and Y. Miao and K. Mo and D. Nunez},
  title       = {{High-fidelity multiphysics load following and accidental transient modeling of microreactors using NEAMS tools: Application of NEAMS codes to perform multiphysics modeling analyses of micro-reactor concepts}},
  institution = {Argonne National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2023,
  number      = {ANL/NEAMS-23/4},
  note        = {\url{https://www.osti.gov/biblio/2008324}}
}

% MOOSE/TIGER
% "The numerical simulations are carried out with a FE open-source application called TIGER ... The code is based on the MOOSE framework..."
@Article{Egert_2023,
  author  = {Roger Egert and Fabian Nitschke and Maziar Gholami Korzani and Thomas Kohl},
  title   = {Spatial characterization of channeling in sheared rough-walled fractures in the transition to nonlinear fluid flow},
  journal = {Water Resources Research},
  month   = oct,
  year    = 2023,
  volume  = 59,
  number  = 10,
  pages   = {e2022WR034362 (17 pages)},
  note    = {\url{https://doi.org/10.1029/2022WR034362}}
}

% MOOSE
% I confirmed that the authors used MOOSE in an email conversation.
% https://www.researchgate.net/publication/371835495_Interfacial_Interactions_in_Particle-Induced_Abnormal_Grain_Growth
@Article{Bhuiyan_2023,
  author  = {M. Nabil Bhuiyan and Lesley D. Frame and Leslie T. Mushongera},
  title   = {Interfacial interactions in particle-induced abnormal grain growth},
  journal = {Advanced Engineering Materials},
  month   = oct,
  year    = 2023,
  volume  = 25,
  number  = 19,
  pages   = {2300178 (xx pages)},
  note    = {\url{https://doi.org/10.1002/adem.202300178}}
}

% MOOSE
% https://www.osti.gov/biblio/2001106
@TechReport{Shemon_2023c,
  author      = {Emily Shemon and Yinbin Miao and Shikhar Kumar and Kun Mo and Yeon Sang Jung and Aaron Oaks and Soon Lee and Cody Permann and Guillaume Giudicelli and Logan Harbour and Roy Stogner and Casey Icenhour and Mengnan Li},
  title       = {{Meshing, language server protocol, and other user-oriented MOOSE Framework improvements to enhance reactor analysis capabilities and workflows}},
  institution = {Argonne National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2023,
  number      = {ANL/NEAMS-23/3},
  note        = {\url{https://doi.org/10.2172/2001106}}
}

% MOOSE/Griffin
@TechReport{Nguyen_2023,
  author      = {Khang Nguyen and Mark D. DeHart},
  title       = {{Modeling of the Advanced Test Reactor using OpenMC, Cubit and Griffin}},
  institution = {Idaho National Laboratory},
  day         = 29,
  month       = aug,
  year        = 2023,
  number      = {INL/RPT-23-74489},
  note        = {\url{https://doi.org/10.2172/2000027}}
}

% MOOSE
% "The governing equations were solved using the finite element method based on the ... (MOOSE) framework."
@Article{Dehwah_2023,
  author  = {Osamah H. A. Dehwah and Linfei Li and Mohamed Abdelrahman and Yunping Xi},
  title   = {Numerical modeling of nanoparticle injection and ionic removal for cementitious materials},
  journal = {Journal of Engineering Mechanics},
  month   = dec,
  year    = 2023,
  volume  = 149,
  number  = 12,
  pages   = {04023098 (xx pages)},
  note    = {\url{https://doi.org/10.1061/JENMDT.EMENG-7030}}
}

% MOOSE
@TechReport{Wozniak_2023,
  author      = {Nicholas Wozniak and Gang Yang and Emily Shemon and Ahmed Abdelhameed},
  title       = {{FY23 status report on MOOSE-based approaches to modeling core bowing in fast reactors}},
  institution = {Argonne National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2023,
  number      = {ANL/NEAMS-23/2},
  note        = {\url{https://doi.org/10.2172/2001073}}
}

% MOOSE
% "We use a variational approach and solve the partial differential equations with MOOSE..."
@Article{Ghanbari_2023c,
  author  = {Farshad Ghanbari and Joe Sgarrella and Christian Peco},
  title   = {Emergent dynamics in slime mold networks},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = oct,
  year    = 2023,
  volume  = 179,
  pages   = {105387 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2023.105387}}
}

% MOOSE/BISON
@Article{Capps_2023b,
  author  = {N. Capps and M. Ridley and Y. Yan and S. Bell and K. Kane},
  title   = {{BISON validation to in situ cladding burst test and high-burnup LOCA experiments}},
  journal = {Annals of Nuclear Energy},
  month   = oct,
  year    = 2023,
  volume  = 191,
  pages   = {109905 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2023.109905}}
}

% MOOSE
% "In the expanded VTB-developed model ..., NEAMS codes Griffin [5], SAM [6], and BISON [7] were employed ..."
% https://publications.anl.gov/anlpubs/2023/09/184491.pdf
% https://www.osti.gov/biblio/1999614
@TechReport{Shemon_2023b,
  author      = {Emily Shemon and Ahmed Abdelhameed and Anshuman Chaube and Jun Fang and Tingzhou Fei and Thanh Hua and Changho Lee and April Novak and Zhiee Ooi and Dillon Shaver and Nicolas Stauff and Nicholas Wozniak and Ling Zou},
  title       = {{Development and porting of nuclear reactor computational models for the NRIC virtual test bed in FY23}},
  institution = {Argonne National Laboratory},
  day         = 15,
  month       = sep,
  year        = 2023,
  number      = {ANL/NSE-23/51},
  note        = {\url{https://doi.org/10.2172/1999614}}
}

% MOOSE
@Article{HChen_2023,
  author  = {Hongli Chen and Weixiang Wang and Aoguang Wu and Kefan Zhang and Rui Pan and Wenshun Duan and Guangliang Yang and Chong Qin and Xiao Luo},
  title   = {{Multi-physics coupling analysis of test heat pipe reactor KRUSTY based on MOOSE framework}},
  journal = {Nuclear Engineering and Design},
  month   = dec,
  year    = 2023,
  volume  = 414,
  pages   = {112597 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112597}}
}

% MOOSE
% "In this work, a finite element method solver with large-scale parallel computing capability is developed based on the MOOSE framework ..."
@InProceedings{XLi_2023,
  author    = {Xiaotian Li and Yifan Liu and Gaofeng Wang},
  title     = {An enhanced finite element thermal solver with large-scale parallel computing capability},
  booktitle = {{Proceedings of the 2023 International Applied Computational Electromagnetics Society Symposium (ACES-China)}},
  address   = {Hangzhou, China},
  pages     = {xx (4 pages)},
  month     = aug # {~15--18,},
  year      = 2023,
  note      = {\url{https://doi.org/10.23919/ACES-China60289.2023.10249884}}
}

% MOOSE/SAM
% "...the neutronics simulations are coupled with thermo-fluids calculations using the SAM code."
% https://deepblue.lib.umich.edu/handle/2027.42/177725
@phdthesis{JLi_thesis,
  author = {Jin Li},
  school = {University of Michigan},
  title  = {{Quantification and minimization the uncertainty propagation of Monte Carlo cross section generation for HTR applications}},
  note   = {\url{https://doi.org/10.7302/8182}},
  month  = sep,
  year   = 2023
}

% MOOSE
% "All models were simulated with our house-developed code based on the open-source Finite Element framework MOOSE..."
% ResearchGate Preprint: https://www.researchgate.net/publication/372074598_Mechanical_investigations_of_composite_cathode_degradation_in_all-solid-state-batteries
@Article{Farzanian_2023,
  author  = {Shafee Farzanian and Joseph Vazquez Mercado and Imtiaz Shozib and Nikhil Sivadas and Valentina Lacivita and Yan Wang and Qingsong Howard Tu},
  title   = {Mechanical investigations of composite cathode degradation in all-solid-state batteries},
  journal = {ACS Applied Energy Materials},
  month   = sep,
  year    = 2023,
  volume  = 6,
  number  = 18,
  pages   = {9615--9623},
  note    = {\url{https://doi.org/10.1021/acsaem.3c01681}, ArXiv e-print: \url{https://arxiv.org/abs/2307.00145}}
}

% BISON
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_67506.pdf
@TechReport{Skerjanc_2023,
  author      = {William F. Skerjanc},
  title       = {{PARFUME/BISON fission product release predictions versus AGR-3/4 heating test measurements}},
  institution = {Idaho National Laboratory},
  day         = 13,
  month       = sep,
  year        = 2023,
  number      = {INL/RPT-23-74505},
  note        = {\url{https://www.osti.gov/biblio/2000032}}
}

% MOOSE/GOLEM
% "In this study, as a preliminary attempt of using GOLEM to carry out borehole poromechanical analysis, only two fractures are included around a wellbore..."
@Article{Heidari_2023,
  author  = {Sina Heidari and Biao Li and Antoine B. Jacquey},
  title   = {{Finite element modeling of wellbore stability in a fractured formation for the geothermal development in northern Quebec, Canada}},
  journal = {Geoenergy Science and Engineering},
  month   = dec,
  year    = 2023,
  volume  = {231, Part A},
  pages   = {212350 (13 pages)},
  note    = {\url{https://doi.org/10.1016/j.geoen.2023.212350}}
}

% MOOSE
% "A ... model coupled with damage was implemented in the ... "MOOSE Framework""
@Article{Khaledi_2023,
  author  = {Kavan Khaledi and Lisa Winhausen and Mohammadreza Jalali and Florian Amann},
  title   = {{Constitutive modeling of clay shales in undrained conditions and its experimental verification for Opalinus Clay}},
  journal = {International Journal of Rock Mechanics and Mining Sciences},
  month   = nov,
  year    = 2023,
  volume  = 171,
  pages   = {105588 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijrmms.2023.105588}}
}

% BISON
% "... the BISON fuel performance code was used to evaluate the cladding under the burst conditions."
@Article{Massey_2023,
  author  = {Caleb P. Massey and Kenneth A. Kane and Ryan T. Sweet and Samuel B. Bell and Sebastien N. Dryepondt and James Burns and Andrew T. Nelson},
  title   = {{Microstructure dependent burst behavior of oxide dispersion-strengthened FeCrAl cladding}},
  journal = {Materials \& Design},
  month   = oct,
  year    = 2023,
  volume  = 234,
  pages   = {112307 (34 pages)},
  note    = {\url{https://doi.org/10.1016/j.matdes.2023.112307}}
}

% MOOSE
% "The system of equations ... is ... implemented within ... (MOOSE)"
% https://doi.org/10.2139/ssrn.4466905
@Article{Guevel_2023,
  author  = {Alexandre Gu{\'{e}}vel and Yue Meng and Christian Peco and Ruben Juanes and John E. Dolbow},
  title   = {{A Darcy--Cahn--Hilliard model of multiphase fluid-driven fracture}},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = dec,
  year    = 2023,
  volume  = 181,
  pages   = {105427 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2023.105427}, ArXiv e-print: \url{https://arxiv.org/abs/2306.16930}}
}

% MOOSE
% "The elastodynamics equation was solved on a moving tetrahedral mesh consisting of about 200,000 tetrahedra ... using the finite-element method with ... a second-order central difference time-stepping scheme [32,33]."
% It is not explicitly stated that the implementation is based on MOOSE, but MOOSE and a MOOSE-based code are cited in a sentence describing the numerical simulations.
@Article{Tsolaki_2023,
  author  = {Elena Tsolaki and Pascal Corso and Robert Zboray and Jonathan Avaro and Christian Appel and Marianne Liebi and Sergio Bertazzo and Paul Philipp Heinisch and Thierry Carrel and Dominik Obrist and Inge K. Herrmann},
  title   = {Multiscale multimodal characterization and simulation of structural alterations in failed bioprosthetic heart valves},
  journal = {Acta Biomaterialia},
  month   = oct,
  year    = 2023,
  volume  = 169,
  pages   = {138--154},
  note    = {\url{https://doi.org/10.1016/j.actbio.2023.07.044}, bioR$\chi$iv e-print: \url{https://doi.org/10.1101/2023.02.26.529530}}
}

% MARMOT
% "The simulation was performed using the phase field code MARMOT..."
@TechReport{Greenquist_2023,
  author      = {Ian Greenquist and Amani Cheniour and Tashiema Ulrich and Andrew Kercher and Ashley Shields},
  title       = {{Phase field sintering simulations of tagged UO$_2$}},
  institution = {Oak Ridge National Laboratory},
  day         = 1,
  month       = aug,
  year        = 2023,
  number      = {ORNL/SPR-2023/2926},
  note        = {\url{https://doi.org/10.2172/1994671}}
}

% MARMOT/BISON
% "In this milestone, we used ... MARMOT to model the evolution of irradiated UO2 microstructures..."
% "The simulation conditions were informed by BISON models of both commercially irradiated fuel and MiniFuel."
@TechReport{Cheniour_2023c,
  author      = {Amani Cheniour and Ian Greenquist and Nathan A. Capps and Christian M. Petrie},
  title       = {{Multiscale modeling of radiation damage in UO$_2$ under accelerated burnup conditions}},
  institution = {Oak Ridge National Laboratory},
  day         = 1,
  month       = jul,
  year        = 2023,
  number      = {ORNL/SPR-2023/2960},
  note        = {\url{https://doi.org/10.2172/1995673}}
}

% MOOSE
% "The system of coupled Eqs. (3) and (4) was solved ... Ferret ...  which is based on ... (MOOSE)..."
@Article{Gurung_2023,
  author  = {Ashok Gurung and John Mangeri and Aaron M. Hagerstrom and Nathan D. Orloff and S. Pamir Alpay and Serge Nakhmanson},
  title   = {Modeling structure-properties relations in compositionally disordered relaxor dielectrics at the nanoscale},
  journal = {Journal of Applied Physics},
  month   = sep,
  year    = 2023,
  volume  = 134,
  number  = 10,
  pages   = {104102 (15 pages)},
  note    = {\url{https://doi.org/10.1063/5.0160448}}
}

% MOOSE
% "Our study is accompanied by finite element simulations, revealing the impact and dependency of process parameters during PBF-LB/M..."
% I confirmed on ResearchGate that the authors used MOOSE for the FEM simulations.
% author:gabriel influence of silver nanoparticle additivation
@Misc{Gabriel_2023,
  author       = {Philipp Gabriel and Jianing Liu and Franziska Staab and Timileyin David Oyedeji and Yangyiwei Yang and Nick Hantke and Franziska Scheibel and Esmaeil Adabifiroozjaei and Oscar Recalde-Benitez and Leopoldo Molina-Luna and Ziyuan Rao and Baptiste Gault and Jan T. Sehrt and Konstantin Skokov and Bai-Xiang Xu and Karsten Durst and Oliver Gutfleisch and Stephan Barcikowski and Anna Rosa Ziefu{\ss}},
  title        = {{Influence of silver nanoparticle additivation on Nd-Fe-B permanent magnets produced by laser powder bed fusion}},
  month        = may,
  year         = 2023,
  howpublished = {ChemRxiv e-print},
  note         = {\url{https://doi.org/10.26434/chemrxiv-2023-7pmp2}}
}

% MOOSE
% "All the present phase-field simulations are carried out using ... (MOOSE)"
@Article{WPeng_2023,
  author  = {Wei Peng and Jianbao Gao and Tiwen Lu and Binhan Sun and Xiancheng Zhang and Lijun Zhang and Shantung Tu},
  title   = {{Insights into abnormal grain growth in copper thin films for reduced electrical resistivity: A quantitative multi-order-parameter phase-field study under finite element framework}},
  journal = {Acta Materialia},
  month   = nov,
  year    = 2023,
  volume  = 260,
  pages   = {119236 (11 pages)},
  note    = {\url{https://doi.org/10.1016/j.actamat.2023.119236}}
}

% MOOSE
% "The multiphysics model ... couples Griffin and SAM codes of ... (MOOSE)..."
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_67174.pdf
@TechReport{Jaradat_2023b,
  author      = {Mustafa Kamel {Mohammad Jaradat} and Javier Ortensi},
  title       = {Thermal spectrum molten salt-fueled reactor reference plant model},
  institution = {Idaho National Laboratory},
  day         = 1,
  month       = jul,
  year        = 2023,
  number      = {INL/RPT-23-72875},
  note        = {\url{https://doi.org/10.2172/1996386}}
}

% MOOSE/BISON
% "... the modeling methodology presented herein, together with ... Bison, represents an improved alternative for making general predictions of GTRF wear in nuclear reactors. "
@Article{Recuero_2023c,
  author  = {Antonio Recuero and Alexander Lindsay and Dewen Yushu},
  title   = {An approach to grid-to-rod fretting wear modeling using dynamic mortar contact},
  journal = {Progress in Nuclear Energy},
  month   = sep,
  year    = 2023,
  volume  = 163,
  pages   = {104793 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2023.104793}}
}

% MOOSE
% "The multiphysics simulations were performed using Sabertooth, which consists of ...(MOOSE)-based applications: Griffin ...,  BISON ..., and RELAP-7"
@Article{Laboure_2023c,
  author  = {Vincent M. Labour{\'{e}} and Javier Ortensi and Nicolas Martin and Paolo Balestra and Derek Gaston and Yinbin Miao and Gerhard Strydom},
  title   = {{Improved multiphysics model of the High Temperature Engineering Test Reactor for the simulation of loss-of-forced-cooling experiments}},
  journal = {Annals of Nuclear Energy},
  month   = sep,
  year    = 2023,
  volume  = 189,
  pages   = {109838 (20 pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2023.109838}}
}

% MOOSE
% "The orthotropy of the yield strength is modelled ... in MOOSE ..."
% author:lesueur author:zhang author:rattez yield strength determination
@Misc{Lesueur_2023,
  author       = {Martin Lesueur and Xinrui Zhang and Hadrien Rattez and Tomasz Hueckel},
  title        = {Yield strength determination based on dissipative energetic transition},
  month        = aug,
  year         = 2023,
  howpublished = {EarthArXiv e-print},
  note         = {\url{https://doi.org/10.31223/X59X0H}}
}

% MOOSE
% "To evaluate the plate-type fuel's performance, a coupling calculation of ... OpenMC, ... BEEs-Plates, and ... NUSAC has been implemented based on the open-source MOOSE platform."
@Article{Yue_2023,
  author  = {Zhiying Yue and Yanan He and Fengrui Xiang and Yingwei Wu and Jing Zhang and Wenxi Tian and Guanghui Su and Suizheng Qiu},
  title   = {{Coupled neutronics, thermal-hydraulics, and fuel performance analysis of dispersion plate-type fuel assembly in a cohesive way}},
  journal = {Nuclear Engineering and Design},
  month   = nov,
  year    = 2023,
  volume  = 413,
  pages   = {112548 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112548}}
}

% MOOSE
% "This paper introduces a new application, Cardinal, that couples OpenMC ... and NekRS... to the MOOSE framework"
% Special issue of NSE with papers from NURETH-19
% https://www.researchgate.net/publication/359121160_COUPLED_MONTE_CARLO_TRANSPORT_AND_CONJUGATE_HEAT_TRANSFER_FOR_WIRE-WRAPPED_BUNDLES_WITHIN_THE_MOOSE_FRAMEWORK
@Article{Novak_2023,
  author  = {A. J. Novak and P. Shriwise and R. Rahaman and P. K. Romano and E. Merzari and D. Gaston},
  title   = {{Coupled Monte Carlo transport and conjugate heat transfer for wire-wrapped bundles within the MOOSE framework}},
  journal = {Nuclear Science and Engineering},
  month   = aug,
  year    = 2023,
  volume  = 197,
  number  = 10,
  pages   = {2561--2584},
  note    = {\url{https://doi.org/10.1080/00295639.2022.2158715}, Special Issue with papers from the 19th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-19), Brussels, Belgium,  Mar.\ 6--11, 2022}
}

% MOOSE
% "By using ... (MOOSE), we achieve a parallel high-performance simulation ..."
@InProceedings{PZhang_2023,
  author    = {Peng Rui Zhang and Yi Ming Liu and Jin Di Ouyang and Ming Chu Chen and Jun Cheng Gao and Yuan Yang Du and Mei Song Tong},
  title     = {{A novel multiphysics simulation method for packaging analysis of chips based on MOOSE}},
  booktitle = {{Proceedings of the 2023 Photonics \& Electromagnetics Research Symposium (PIERS 2023)}},
  address   = {Prague, Czechia},
  editor    = {Weng Cho Chew and Sailing He},
  pages     = {1809--1816},
  publisher = {IEEE},
  month     = jul # {~3--6,},
  year      = 2023,
  note      = {\url{https://doi.org/10.1109/PIERS59004.2023.10221351}}
}

% IBAMR/libMesh
% https://www.proquest.com/openview/eccd3feec10652a8acbb6d37fdf4b0bb
@phdthesis{JordanBrown_thesis,
  author = {Jordan A. Brown},
  school = {University of North Carolina at Chapel Hill},
  title  = {{Modeling transcatheter aortic valve replacement in patient-specific anatomies: Fluid-structure interaction models using the immersed finite element-difference method}},
  note   = {\url{https://tinyurl.com/yeyah8s2}},
  month  = aug,
  year   = 2023
}

% MOOSE
% "The crystal plasticity model has been numerically implemented and interfaced with ... (MOOSE)"
@Article{Chaudhary_2023,
  author  = {Suketa Chaudhary and Namit Pai and G. Appa Rao and Zafir Alam and R. Sankarasubramanian and P. J. Guruprasad and Indradev Samajdar and Anirban Patra},
  title   = {{Competitive role of primary $\gamma'$ precipitates and annealing twins on the heterogeneous deformation of a polycrystalline Ni-based superalloy: Crystal plasticity modeling and experiments}},
  journal = {Journal of Alloys and Compounds},
  month   = dec,
  year    = 2023,
  volume  = 967,
  pages   = {171783 (19 pages)},
  note    = {\url{https://doi.org/10.1016/j.jallcom.2023.171783}}
}

% MOOSE/Griffin
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_64093.pdf
@InProceedings{Paganin_2023,
  author    = {Tomas Mallmann Paganin and Sebastian Schunert and Richard Vasques and Leonardo Moraes},
  title     = {{An initial study of the convergence rate of Griffin's pebble bed reactors algorithm}},
  booktitle = {{Proceedings of the International Conference on Mathematics and Computational Methods Applied to Nuclear Science \& Engineering (M\&C 2023)}},
  address   = {Niagra Falls, Ontario, Canada},
  month     = aug # {~13--17,},
  year      = 2023,
  pages     = {xx (10 pages)},
  note      = {\url{https://www.osti.gov/biblio/2007793}, Tech. Report INL/CON-22-69788}
}

% MOOSE/Griffin
% https://www.researchgate.net/publication/374381262_Verification_of_the_Serpent-_Griffin_Workflow_using_the_SNAP_8_Experimental_Reactor
% https://www.osti.gov/biblio/2006790
@InProceedings{Aguirre_2023,
  author    = {Isaac Naupa Aguirre and Sam Garcia and Benjamin A. Lindley and Stefano Terlizzi and Abdalla Abou Jaoude and Dan Kotlyar},
  title     = {{Verification of the Serpent-Griffin workflow using the SNAP 8 experimental reactor}},
  booktitle = {{Proceedings of the International Conference on Mathematics and Computational Methods Applied to Nuclear Science \& Engineering (M\&C 2023)}},
  address   = {Niagra Falls, Ontario, Canada},
  month     = aug # {~13--17,},
  year      = 2023,
  pages     = {xx (9 pages)},
  note      = {\url{https://tinyurl.com/mvnbmfzf}, Tech. Report INL/CON-22-69994}
}

% MOOSE/Griffin
% https://www.researchgate.net/publication/373330910_Development_of_Coupled_Code_System_with_Griffin_MOOSE_and_NekRS_for_Hot_Channel_Factor_Evaluation_in_Fast_Reactors
@InProceedings{Park_2023,
  author    = {H. Park and Y. Yu and E. Shemon and A. Novak},
  title     = {{Development of coupled code system with Griffin, MOOSE and NekRS for hot channel factor evaluation in fast reactors}},
  booktitle = {{Proceedings of the International Conference on Mathematics and Computational Methods Applied to Nuclear Science \& Engineering (M\&C 2023)}},
  address   = {Niagra Falls, Ontario, Canada},
  month     = aug # {~13--17,},
  year      = 2023,
  pages     = {xx (10 pages)},
  note      = {https://tinyurl.com/5n7mz47s}
}

% MOOSE/SAM
@InProceedings{Gorman_2023,
  author    = {Michael Gorman and Ling Zou and Rui Hu and Yassin A. Hassan},
  title     = {{Implementation of the Homogeneous Equilibrium Model (HEM) into the SAM Code for two-phase flow modeling}},
  booktitle = {{Proceedings of the 20th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-20)}},
  address   = {Washington, D. C.},
  pages     = {559--571},
  publisher = {American Nuclear Society},
  month     = aug # {~20--25,},
  year      = 2023,
  note      = {\url{https://www.ans.org/pubs/proceedings/article-54114/}}
}

% MOOSE/SAM
@InProceedings{Huxford_2023b,
  author    = {A. Huxford and V. {Coppo Leite} and E. Merzari and L. Zou and V. Petrov and A. Manera},
  title     = {{Validation of SAM-NekRS coupling against the TALL-3D STH/CFD coupling benchmark transient}},
  booktitle = {{Proceedings of the 20th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-20)}},
  address   = {Washington, D. C.},
  pages     = {518--529},
  publisher = {American Nuclear Society},
  month     = aug # {~20--25,},
  year      = 2023,
  note      = {\url{https://www.ans.org/pubs/proceedings/article-54111/}}
}

% MOOSE/Pronghorn/SAM
@InProceedings{Tano_2023,
  author    = {M. Tano and S. Walker and A. Abou-Jaoude and J. Fang and D. Shaver},
  title     = {{Nek5000-Pronghorn-SAM multiscale modeling of pool-type molten salt reactors}},
  booktitle = {{Proceedings of the 20th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-20)}},
  address   = {Washington, D. C.},
  pages     = {478--491},
  publisher = {American Nuclear Society},
  month     = aug # {~20--25,},
  year      = 2023,
  note      = {\url{https://www.ans.org/pubs/proceedings/article-54108/}}
}

% MOOSE/SAM
@InProceedings{Leite_2023b,
  author    = {Victor {Coppo Leite} and Elia Merzari and Adam Dix and Ling Zou},
  title     = {{Code validation of SAM using forced and natural-circulation data from NACIE-UP benchmark}},
  booktitle = {{Proceedings of the 20th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-20)}},
  address   = {Washington, D. C.},
  pages     = {296--309},
  publisher = {American Nuclear Society},
  month     = aug # {~20--25,},
  year      = 2023,
  note      = {\url{https://doi.org/10.13182/NURETH20-40261}}
}

% MOOSE/Cardinal
% "we use the Cardinal ... (MOOSE) application ... to run coupled simulations"
@InProceedings{Leite_2023,
  author    = {Victor {Coppo Leite} and Elia Merzari and April Novak and Roberto Ponciroli and Lander Ibarra},
  title     = {Application of a physics-informed convolutional neural network for temperature field monitoring in advanced reactors},
  booktitle = {{Proceedings of the 20th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-20)}},
  address   = {Washington, D. C.},
  pages     = {5108--5121},
  publisher = {American Nuclear Society},
  month     = aug # {~20--25,},
  year      = 2023,
  note      = {\url{https://doi.org/10.13182/NURETH20-40263}}
}

% MOOSE/Cardinal
% "This paper then introduces Cardinal, an innovative approach to high-fidelity multiphysics and multiscale analysis using OpenMC, NekRS, and MOOSE"
% https://www.researchgate.net/publication/373330891_High-Fidelity_Multiphysics_for_Fission_Challenges_Accomplishments_and_Future_Directions
% https://www.ans.org/pubs/proceedings/article-54078/
@InProceedings{Novak_2023c,
  author    = {A. J. Novak and P. Shriwise and P. Romano and D. Shaver and J. Fang and H. Yuan and D. Gaston and E. Merzari and H. Brooks and A. Huxford},
  title     = {{High-fidelity multiphysics for fission: Challenges, accomplishments, and future directions}},
  booktitle = {{Proceedings of the 20th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-20)}},
  address   = {Washington, D. C.},
  pages     = {38--55},
  publisher = {American Nuclear Society},
  month     = aug # {~20--25,},
  year      = 2023,
  note      = {\url{https://tinyurl.com/ywa82wn7}}
}

% MOOSE
@InProceedings{Chaube_2023,
  author    = {A. Chaube and A. J. Novak and H. Yuan and E. Merzari and D. R. Shaver and P. F. Fischer and C. S. Brooks},
  title     = {{A preliminary fluid-structure coupling of NekRS and MOOSE via Cardinal}},
  booktitle = {{Proceedings of the International Conference on Mathematics and Computational Methods Applied to Nuclear Science \& Engineering (M\&C 2023)}},
  address   = {Niagra Falls, Ontario, Canada},
  month     = aug # {~13--17,},
  year      = 2023,
  pages     = {xx (10 pages)},
  note      = {ArXiv e-print: \url{https://arxiv.org/abs/2308.11777}}
}

% BISON
% FEA software section: "BISON ... is a finite element fuel performance code developed by INL."
@Article{Schappel_2023b,
  author  = {Danny Schappel and Kory D. Linton and Grant W. Helmreich and Tamara J. Keever and Christian M. Petrie},
  title   = {{Failure analysis of nuclear transient-tested UN tristructural isotropic fuel particles in a 3D printed SiC matrix}},
  journal = {Journal of Nuclear Materials},
  month   = dec,
  year    = 2023,
  volume  = 586,
  pages   = {154691 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154691}}
}

% MOOSE/SAM
% https://www.osti.gov/biblio/1994383
% https://publications.anl.gov/anlpubs/2023/08/183807.pdf
@TechReport{Ooi_2023b,
  author      = {Zhiee Jhia Ooi and Ling Zou and Thanh Hua and Jun Fang and Rui Hu},
  title       = {{Multi-physics system-level simulations of a generic pebble bed high-temperature gas cooled reactor with coupled SAM/Griffin model}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = jul,
  year        = 2023,
  number      = {ANL/NSE-23/45},
  note        = {\url{https://doi.org/10.2172/1994383}}
}

% MOOSE
% "The heat conduction calculations, on the other hand, were based on the MOOSE ..."
@Article{DJiang_2023,
  author  = {Duoyu Jiang and Peng Xu and Tianliang Hu and Xinbiao Jiang and Lipeng Wang and Da Li and Xinyi Zhang and Lu Cao},
  title   = {{Coupled Monte Carlo and thermal-hydraulics modeling for the three-dimensional steady-state analysis of the Xi'an pulsed reactor}},
  journal = {Energies},
  month   = aug,
  year    = 2023,
  volume  = 16,
  number  = 16,
  pages   = {6046 (15 pages)},
  note    = {\url{https://doi.org/10.3390/en16166046}}
}

% MOOSE/RACCOON
% "This solution scheme is implemented using RACCOON ... RACCOON is built upon the MOOSE framework"
@Article{Costa_2023,
  author  = {Andre Costa and Tianchen Hu and John E. Dolbow},
  title   = {On formulations for modeling pressurized cracks within phase-field methods for fracture},
  journal = {Theoretical and Applied Fracture Mechanics},
  month   = oct,
  year    = 2023,
  volume  = 127,
  pages   = {104040 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.tafmec.2023.104040}, ArXiv e-print: \url{https://www.arxiv.org/abs/2305.07029}}
}

% Maybe libMesh
% "The finite element methodology (FEM) utilized to discretize the set of integral equations ... has been coded using libMesh..."
@Article{Tzirakis_2023,
  author  = {Konstantinos Tzirakis and Christos Panagiotis Papanikas and Vangelis Sakkalis and Eleftheria Tzamali and Yannis Papaharilaou and Alfonso Caiazzo and Triantafyllos Stylianopoulos and Vasileios Vavourakis},
  title   = {An adaptive semi-implicit finite element solver for brain cancer progression modeling},
  journal = {International Journal for Numerical Methods in Biomedical Engineering},
  month   = jul,
  year    = 2023,
  volume  = 39,
  number  = 7,
  pages   = {e3734 (25 pages)},
  note    = {\url{https://doi.org/10.1002/cnm.3734}}
}

% MOOSE
% "Cardinal is a multiphysics software tool that couples OpenMC... and NekRS ... to ... (MOOSE)."
% https://www.researchgate.net/publication/373173646_Verification_of_the_Cardinal_Multiphysics_Solver_for_1-D_Coupled_Heat_Transfer_and_Neutron_Transport
@InProceedings{Gross_2023,
  author    = {L. I. Gross and April J. Novak and P. Shriwise and P. P. H. Wilson},
  title     = {{Verification of the Cardinal multiphysics solver for 1-D coupled heat transfer and neutron transport}},
  booktitle = {{Proceedings of the International Conference on Mathematics and Computational Methods Applied to Nuclear Science \& Engineering (M\&C 2023)}},
  address   = {Niagra Falls, Ontario, Canada},
  month     = aug # {~13--17,},
  year      = 2023,
  pages     = {xx (10 pages)},
  note      = {\url{https://tinyurl.com/32sn2sbm}}
}

% libMesh
% "The domains are discretized into quadratic tetrahedral elements in Cubit ... and optimized with the libMesh library."
@Article{PalacioBetancur_2023,
  author  = {Viviana Palacio-Betancur and Julio C. Armas-P{\'{e}}rez and Juan P. Hern{\'{a}}ndez-Ortiz and Juan J. de Pablo},
  title   = {Curvature and confinement effects on chiral liquid crystal morphologies},
  journal = {Soft Matter},
  month   = jun,
  year    = 2023,
  volume  = 19,
  number  = 32,
  pages   = {6066--6073},
  note    = {\url{https://doi.org/10.1039/D3SM00437F}}
}

% MOOSE
% "... front speed results generated by our SFDS are comparable to results generated by ... MOOSE with custom FP computation kernels..."
@Article{Schaer_2023,
  author  = {Grayson Schaer and Timothy Bretl},
  title   = {{Closed-loop control of front speed during frontal polymerization of dicyclopentadiene---A numerical study}},
  journal = {Advanced Theory and Simulations},
  month   = aug,
  year    = 2023,
  volume  = 6,
  number  = 8,
  pages   = {2300015 (12 pages)},
  note    = {\url{https://doi.org/10.1002/adts.202300015}}
}

% MOOSE
% https://www.researchgate.net/publication/373157683_Multiphysics_Coupling_of_OpenMC_CAD-Based_Transport_to_MOOSE_using_Cardinal_and_Aurora
@InProceedings{Novak_2023b,
  author    = {April J. Novak and H. Brooks and P. Shriwise and A. Gegazy and A. Davis},
  title     = {{Multiphysics coupling of OpenMC CAD-based transport to MOOSE using Cardinal and Aurora}},
  booktitle = {{Proceedings of the International Conference on Mathematics and Computational Methods Applied to Nuclear Science \& Engineering (M\&C 2023)}},
  address   = {Niagra Falls, Ontario, Canada},
  month     = aug # {~13--17,},
  year      = 2023,
  pages     = {xx (10 pages)},
  note      = {\url{https://tinyurl.com/46mvvsuu}}
}

% MOOSE
% "DRAGen now has the ability to create models for three powerful multiphysics frameworks used in the community: DAMASK, Abaqus and MOOSE."
@Article{Henrich_2023,
  author  = {Manuel Henrich and Niklas Fehlemann and Felix Bexter and Maximilian Neite and Linghao Kong and Fuhui Shen and Markus K{\"{o}}nemann and Michael D{\"{o}}lz and Sebastian M{\"{u}}nstermann},
  title   = {{DRAGen -- A deep learning supported RVE generator framework for complex microstructure models}},
  journal = {Heliyon},
  month   = aug,
  year    = 2023,
  volume  = 9,
  number  = 8,
  pages   = {E19003 (33 pages)},
  note    = {\url{https://doi.org/10.1016/j.heliyon.2023.e19003}}
}

% MOOSE
@Article{German_2023,
  author  = {P{\'{e}}ter German and Dewen Yushu},
  title   = {{Enabling scientific machine learning in MOOSE using Libtorch}},
  journal = {SoftwareX},
  month   = jul,
  year    = 2023,
  volume  = 23,
  pages   = {101489 (6 pages)},
  note    = {\url{https://doi.org/10.1016/j.softx.2023.101489}}
}

% FALCON
% "The code is part of the INL MOOSE computational framework..."
% https://www.researchgate.net/publication/372854833_Closed_Loop_Geothermal_Analysis_Modeling_and_Simulation_Using_Idaho_National_Laboratory%27_RELAP5-3D-FALCON_Coupled_Codes
@InProceedings{Parisi_2023,
  author    = {Carlo Parisi and Paolo Balestra and Brian Kyanjo and Theron D. Marshall and Travis L. McLing and Mark D. White},
  title     = {{Closed loop geothermal analysis modeling and simulation using idaho national laboratory RELAP5-3D-FALCON coupled codes}},
  booktitle = {{Proceedings of the 48th Workshop on Geothermal Reservoir Engineering}},
  address   = {Stanford, California},
  pages     = {SGP-TR-224 (9 pages)},
  month     = feb # {~6--8,},
  year      = 2023,
  note      = {\url{https://tinyurl.com/xeyf9v2w}}
}

% MOOSE/BISON
% "The BISON fuel performance code ... was used to perform the simulations presented in this work."
% https://www.osti.gov/biblio/1991699
@TechReport{Schappel_2023,
  author      = {Danny Schappel and Nathan Capps},
  title       = {{Impact of LWR assembly structural features on cladding burst behavior under LOCA conditions}},
  institution = {Oak Ridge National Laboratory},
  day         = 1,
  month       = jul,
  year        = 2023,
  number      = {ORNL/SPR-2023/2939},
  note        = {\url{https://doi.org/10.2172/1991699}}
}

% MOOSE
% "The model, which has been implemented in MOOSE, ..."
@Article{Sun_2023,
  author  = {Jason Sun and Yu Chen and Joseph J. Marziale and Eric A. Walker and David Salac and James Chen},
  title   = {{Damage prediction of sintered $\alpha$-SiC using thermo-mechanical coupled fracture model}},
  journal = {Journal of the American Ceramic Society},
  month   = oct,
  year    = 2023,
  volume  = 106,
  numbe   = 10,
  pages   = {6036--6050},
  note    = {\url{https://doi.org/10.1111/jace.19202}}
}

% MOOSE
% "The ... coupled simulations are performed using ... TIGER ... based on the MOOSE"
@Article{Goldberg_2023,
  author  = {Valentin Goldberg and Ali Dashti and Robert Egert and Binil Benny and Thomas Kohl and Fabian Nitschke},
  title   = {{Challenges and opportunities for lithium extraction from geothermal systems in Germany---Part 3: The return of the extraction brine}},
  journal = {Energies},
  month   = aug,
  year    = 2023,
  volume  = 16,
  number  = 16,
  pages   = {5899 (21 pages)},
  note    = {\url{https://doi.org/10.3390/en16165899}}
}

% MOOSE
% "These equations are solved using the finite element method in MOOSE framework.
% https://www.researchgate.net/publication/372767015_A_quantitative_phase-field_model_for_void_evolution_in_defect_supersaturated_environments_a_novel_introduction_of_defect_reaction_asymmetry
% author:rayaprolu author:starkey void evolution supersaturated
@Misc{Rayaprolu_2023,
  author       = {Sreekar Rayaprolu and Kyle Starkey and Anter El-Azab},
  title        = {{A quantitative phase-field model for void evolution in defect supersaturated environments: A novel introduction of defect reaction asymmetry}},
  month        = jul,
  year         = 2023,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2307.15626}}
}

% MOOSE
% "...we solve the governing equations in their weak form using the open-source MOOSE finite element framework."
@Article{Bandyopadhyay_2023,
  author  = {Soumya Bandyopadhyay and Vishal Panwar and Sandip Guin and C. R. Anoop and Nilesh Prakash Gurao and Rajdip Mukherjee},
  title   = {{Multivariant microstructure evolution in Ti-alloys: insights from a quantitative phase-field study}},
  journal = {Modelling and Simulation in Materials Science and Engineering},
  month   = aug,
  year    = 2023,
  volume  = 31,
  number  = 6,
  pages   = {065019 (xx pages)},
  note    = {\url{https://doi.org/10.1088/1361-651X/ace83f}}
}

% MOOSE
% "To simulate CF electroformation using our electrothermal phase field method, we solve ... using the ... (MOOSE) multiphysics solver"
@Article{Sevic_2023,
  author  = {John F. Sevic and Nobuhiko P. Kobayashi},
  title   = {Resistive switching conducting filament electroformation with an electrothermal phase field method},
  journal = {Applied Physics Letters},
  month   = aug,
  year    = 2023,
  volume  = 123,
  number  = 8,
  pages   = {083505 (6 pages)},
  note    = {\url{https://doi.org/10.1063/5.0151532}, ArXiv e-print: \url{https://arxiv.org/abs/2307.14582}}
}

% MOOSE
% "We then solve these equations ... using ... (MOOSE) ..."
@InProceedings{Ghanbari_2023b,
  author    = {Farshad Ghanbari and Joe Sgarrella and Christian Peco},
  title     = {Coding soft matter with bionetworks-inspired emergent principles},
  booktitle = {{Proceedings of Bioinspiration, Biomimetics, and Bioreplication XIII, vol.\ 12481 (SPIE Smart Structures + Nondestructive Evaluation 2023)}},
  address   = {Long Beach, California, USA},
  editor    = {Mato Knez and Akhlesh Lakhtakia and Ra{\'{u}}l J. Mart{\'{i}}n-Palma},
  pages     = {1248103 (10 pages)},
  month     = mar # {~12--16,},
  year      = 2023,
  note      = {\url{https://doi.org/10.1117/12.2657691}}
}

% MOOSE
% "We utilize the numerical solver in the MOOSE ... computer code"
@Article{Li_2023,
  author  = {Yongchang Li and Zhihan Hu and Aaron French and Kenneth Cooper and Frank A. Garner and Lin Shao},
  title   = {Effect of the free surface on near-surface void swelling in self-ion irradiated single crystal pure iron considering the carbon effect},
  journal = {Journal of Nuclear Materials},
  month   = nov,
  year    = 2023,
  volume  = 585,
  pages   = {154594 (14 pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154594}}
}

% MOOSE
% "For all PF simulations, the evolution equations and the heat conduction equation are solved using the ... (MOOSE) framework"
@Article{Shen_2023,
  author  = {Yixi Shen and Peng Wen and An T. Ta and Simon R. Phillpot and Douglas E. Spearot},
  title   = {{Migration velocities of intergranular He gas bubbles under thermal gradients in Fe by phase-field modeling}},
  journal = {Journal of Nuclear Materials},
  month   = nov,
  year    = 2023,
  volume  = 585,
  pages   = {154606 (15 pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154606}}
}

% MOOSE
% "The phase field model is implemented in the MOOSE framework..."
@Article{Xie_2023,
  author  = {Kai Xie and Ruijie Zhang and Zhongxin Li and Zhilin Wu},
  title   = {{Adaptive method for phase-field fracture using a volume weighted Quickselect algorithm}},
  journal = {International Journal of Fracture},
  month   = aug,
  year    = 2023,
  volume  = 242,
  number  = 2,
  pages   = {247--263},
  note    = {\url{https://doi.org/10.1007/s10704-023-00718-7}}
}

% MOOSE/phase_field
% "This work compares the performance of LSA and GSA for solving four KKS models of increasing complexity with the finite element method using the MOOSE framework."
@Article{Bognarova_2023,
  author  = {Xueyang Bognarova and Wen Jiang and Daniel Schwen and Michael R. Tonks},
  title   = {{A comparative study of two numerical approaches for solving Kim--Kim--Suzuki phase-field models}},
  journal = {Computational Materials Science},
  month   = oct,
  year    = 2023,
  volume  = 229,
  pages   = {112375 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112375}}
}

% MOOSE/Sockeye
% "Additionally, a physics model was created within the Sockeye framework that would be applied in future tests."
@Article{Wilsdon_2023,
  author  = {Katherine Wilsdon and Joshua Hansel and M. Ross Kunz and Jeren Browning},
  title   = {{Autonomous control of heat pipes through digital twins: Application to fission batteries}},
  journal = {Progress in Nuclear Energy},
  month   = sep,
  year    = 2023,
  volume  = 163,
  pages   = {104813 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2023.104813}}
}

% IBAMR/libMesh
% "The present paper simulates the problem using ... the ConstraintIB module ... implemented in IBAMR"
% https://www.researchgate.net/publication/372488545_How_wavelength_affects_hydrodynamic_performance_of_two_accelerating_mirror-symmetric_undulating_hydrofoils
% The ArXiv preprint from Dec 2022 has only two authors.
@Article{ZLin_2023b,
  author  = {Zhonglu Lin and Dongfang Liang and Amneet Pal Singh Bhalla and Ahmed A. Sheikh Al-Shabab and Martin Skote and Wei Zheng and Yu Zhang},
  title   = {How wavelength affects hydrodynamic performance of two accelerating mirror-symmetric undulating hydrofoils},
  journal = {Physics of Fluids},
  month   = aug,
  year    = 2023,
  volume  = 35,
  number  = 8,
  pages   = {081901 (22 pages)},
  note    = {\url{https://doi.org/10.1063/5.0155661}, ResearchGate Preprint: \url{https://tinyurl.com/2p984m84}, ArXiv e-print: \url{https://arxiv.org/abs/2212.11004}}
}

% MOOSE
% "... the equations are non-dimensionalized and implemented using the open-source finite element framework MOOSE..."
@Article{David_2023,
  author  = {Rapha\"{e}lle David and Aashique A. Rezwan and Yongfeng Zhang},
  title   = {Impact of defect annihilation mechanism on the grain size dependence and the dimensionality effect of radiation induced segregation},
  journal = {Materialia},
  month   = aug,
  year    = 2023,
  volume  = 30,
  pages   = {101851 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.mtla.2023.101851}}
}

% MOOSE
% "The PF equations were implemented in ... (MOOSE)"
@Article{Rizza_2023b,
  author  = {Giovanni Rizza and Manuela Galati and Luca Iuliano},
  title   = {{Evaluation of the effective thermal conductivity of the unmelted powder particles during the electron beam powder bed fusion (EB-PBF) process}},
  journal = {Procedia CIRP},
  month   = jul,
  year    = 2023,
  volume  = 118,
  pages   = {765--770},
  note    = {16th CIRP Conference on Intelligent Computation in Manufacturing Engineering, \url{https://doi.org/10.1016/j.procir.2023.06.131}}
}

% MOOSE
% "Numerical implementation of the model is carried out ... in ... (MOOSE)"
% https://www.researchgate.net/publication/369266382_A_thermodynamically_consistent_non-isothermal_phase-field_model_for_selective_laser_sintering_additive_manufacturing
@Article{Liang_2023,
  author  = {Chenguang Liang and Yan Yin and Wenxuan Wang and Min Yi},
  title   = {A thermodynamically consistent non-isothermal phase-field model for selective laser sintering},
  journal = {International Journal of Mechanical Sciences},
  month   = dec,
  year    = 2023,
  volume  = 259,
  pages   = {108602 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijmecsci.2023.108602}, ResearchGate Preprint: \url{https://tinyurl.com/39xaxmae}}
}

% MOOSE/Zapdos
@Article{DeChant_2023b,
  author  = {Corey DeChant and Casey Icenhour and Shane Keniley and Grayson Gall and Alexander Lindsay and Davide Curreli and Steven Shannon},
  title   = {{Verification and validation of the open-source plasma fluid code: Zapdos}},
  journal = {Computer Physics Communications},
  month   = oct,
  year    = 2023,
  volume  = 291,
  pages   = {108837 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cpc.2023.108837}}
}

% MOOSE/KRAKEN
% "... we have developed our own multiphysics simulation platform, Kraken, built on top of ... (MOOSE) ..."
@Article{Wandke_2023b,
  author  = {Kevin Wandke and {Y Z}},
  title   = {Physics-based finite element simulation of the dynamics of soft robots},
  journal = {IEEE Access},
  month   = jul,
  year    = 2023,
  volume  = 11,
  pages   = {67996--68003},
  note    = {\url{https://doi.org/10.1109/ACCESS.2023.3291617}}
}

% MOOSE
% "The final set of the governing equations ... is subsequently implemented into an open-source finite element simulator based on ... MOOSE ..."
@Article{Tang_2023,
  author  = {XiaoJie Tang and ManMan Hu},
  title   = {Chemo-hydro-mechanics in a reactive rock under cylindrical fluid pressurization},
  journal = {Computers and Geotechnics},
  month   = oct,
  year    = 2023,
  volume  = 162,
  pages   = {105637 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.compgeo.2023.105637}}
}

% MOOSE
% "In order to simulate the conjugate heat transfer problem; a calculation program for simulating fluid-solid conjugate heat transfer problems is developed on the MOOSE platform..."
% Paper is in Chinese, but this excerpt is from an English translation of the abstract and the title is a Google translation.
% This is a link to the journal TOC. 2023 Issue 4 was not available at the time I initially found this reference
% https://caod.oriprobe.com/journals/zsdxxb/Acta_Scientiarum_Naturalium_Universitatis_Sunyatseni.htm
@Article{Zhongshan_2023,
  author  = {Daxue Xuebao Zhongshan},
  title   = {Development and verification of fluid-solid conjugate heat transfer program based on finite elements},
  journal = {Acta Scientiarum Naturalium Universitatis Sunyatseni},
  month   = jul,
  year    = 2023,
  volume  = 62,
  number  = 4,
  pages   = {108--115},
  note    = {\url{https://tinyurl.com/bddfecp3}}
}

% MOOSE
% Got PDF copy of the paper from the authors on ResearchGate. It does cite MOOSE, but there is no sentence
% confirming that MOOSE is actually used for the phase-field simulations which are shown in the paper.
% I confirmed with the author, Fangping Zhuo that MOOSE is mentioned in the "Supporting Information"
% document even though it is not mentioned in the main manuscript.
@Article{FZhuo_2023,
  author  = {Fangping Zhuo and Xiandong Zhou and Shuang Gao and Felix Dietrich and Pedro B. Groszewicz and Lovro Fulanovi{\'{c}} and Patrick Breckner and Bai-Xiang Xu and Hans-Joachim Kleebe and Dragan Damjanovic and J{\"{u}}rgen R{\"{o}}del},
  title   = {Intrinsic-strain engineering by dislocation imprint in bulk ferroelectrics},
  journal = {Physical Review Letters},
  month   = jul,
  year    = 2023,
  volume  = 131,
  number  = 1,
  pages   = {016801 (7 pages)},
  note    = {\url{https://doi.org/10.1103/PhysRevLett.131.016801}}
}

% MOOSE/Griffin
% Dissertation defense related to the same work:
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_66437.pdf
% Dissertation entry in Pro-quest:
% https://www.proquest.com/openview/4ab8b9b7b6c338abed44d8ae53c7c69c/1
@phdthesis{Calvin_thesis,
  author = {Olin W. Calvin},
  school = {University of Idaho},
  title  = {Depletion chain simplification with pseudo-nuclides to model decay effects},
  note   = {\url{https://tinyurl.com/yx29k5u2}},
  month  = aug,
  year   = 2023
}

% MOOSE/Griffin
% "Pseudo-nuclides can model the decay photon emission of radionuclides... in the reactor analysis code, Griffin."
% The pre-print and the final paper have slightly different titles, I assume they refer to the same work
% Paper related to the work in Calvin_thesis
@Article{Calvin_2023b,
  author  = {Olin Calvin},
  title   = {Depletion chain simplification using pseudo-nuclides},
  journal = {Annals of Nuclear Energy},
  month   = dec,
  year    = 2023,
  volume  = 193,
  pages   = {110011 (19 pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2023.110011}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4463259}}
}

% MOOSE/Griffin
% "We implemented this functionality in Griffin..."
% This is a PHYSOR 2022 conference paper that was published in NSE
@Article{Calvin_2023,
  author  = {Olin W. Calvin and Micah D. Gale and Sebastian Schunert},
  title   = {{Evaluating quantities of interest other than nuclide densities in the Bateman equations}},
  journal = {Nuclear Science and Engineering},
  month   = jul,
  year    = 2023,
  volume  = 197,
  number  = 8,
  pages   = {2234--2250},
  note    = {Special issue featuring papers from the 2022 International Conference on Physics of Reactors (PHYSOR 2022), \url{https://doi.org/10.1080/00295639.2022.2161802}}
}

% MOOSE
% This is a PHYSOR 2022 conference paper that was published in NSE
@Article{Shemon_2023,
  author  = {Emily Shemon and Yinbin Miao and Shikhar Kumar and Kun Mo and Yeon Sang Jung and Aaron Oaks and Scott Richards and Guillaume Giudicelli and Logan Harbour and Roy Stogner},
  title   = {{MOOSE Reactor Module: An open-source capability for meshing nuclear reactor geometries}},
  journal = {Nuclear Science and Engineering},
  month   = jul,
  year    = 2023,
  volume  = 197,
  number  = 8,
  pages   = {1656--1680},
  note    = {Special issue featuring papers from the 2022 International Conference on Physics of Reactors (PHYSOR 2022), \url{https://doi.org/10.1080/00295639.2022.2149231}}
}

% MOOSE
% This is a PHYSOR 2022 conference paper that was published in NSE
@Article{Giudicelli_2023,
  author  = {Guillaume L. Giudicelli and Abdalla Abou-Jaoude and April J. Novak and Ahmed Abdelhameed and Paolo Balestra and Lise Charlot and Jun Fang and Bo Feng and Thomas Folk and Ramiro Freile and Thomas Freyman and Derek Gaston and Logan Harbour and Thanh Hua and Wen Jiang and Nicolas Martin and Yinbin Miao and Jason Miller and Isaac Naupa and Dan O'Grady and David Reger and Emily Shemon and Nicolas Stauff and Mauricio Tano and Stefano Terlizzi and Samuel Walker and Cody Permann},
  title   = {{The Virtual Test Bed (VTB) repository: A library of reference reactor models using NEAMS tools}},
  journal = {Nuclear Science and Engineering},
  month   = jul,
  year    = 2023,
  volume  = 197,
  number  = 8,
  pages   = {2217--2233},
  note    = {Special issue featuring papers from the 2022 International Conference on Physics of Reactors (PHYSOR 2022), \url{https://doi.org/10.1080/00295639.2022.2142440}}
}

% MOOSE
% "The bi-continuous NPG target nanostructure was produced using Phase Field Theory ... as implemented in the MOOSE code suite."
% https://www.researchgate.net/publication/372073962_Atomistic_study_of_the_impact_response_of_bicontinuous_nanoporous_gold_as_a_protection_medium_Effect_of_porous-nonporous_interface_on_failure_evolution
@Article{Saffarini_2023,
  author  = {Mohammed H. Saffarini and Tommy Sewell and Yu-Chen Su and Zhen Chen},
  title   = {{Atomistic study of the impact response of bicontinuous nanoporous gold as a protection medium: Effect of porous-nonporous interface on failure evolution}},
  journal = {Computational Materials Science},
  month   = sep,
  year    = 2023,
  volume  = 228,
  pages   = {112363 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112363}}
}

% MOOSE
% "The training data is obtained from the finite element simulations on the microscopic level using the open-source framework ... (MOOSE)"
@Article{Asheri_2023,
  author  = {Armin Asheri and Mozhdeh Fathidoost and Vedran Glavas and Shahed Rezaei and Bai-Xiang Xu},
  title   = {Data-driven multiscale simulation of solid-state batteries via machine learning},
  journal = {Computational Materials Science},
  month   = jun,
  year    = 2023,
  volume  = 226,
  pages   = {112186 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112186}}
}

% libMesh
% "The quadrature formulas we used are implemented in the library libmesh..."
% When I initially checked this DOI, it was not yet active.
% https://doi.org/10.23952/cot.2023.8
% https://arodes.hes-so.ch/record/12058/files/Caboussat_2022_Numerical_approximation_of_rigid_maps_in_origami_theory.pdf
% https://tinyurl.com/pd7mhpef
@Article{Caboussat_2023,
  author  = {Alexandre Caboussat and Dimitrios Gourzoulidis},
  title   = {Numerical approximation of rigid maps in origami theory},
  journal = {Communications in Optimization Theory},
  month   = mar,
  year    = 2023,
  volume  = 2023,
  pages   = {8 (16 pages)},
  note    = {\url{http://cot.mathres.org/archives/1474}}
}

% MOOSE
% "We investigate two examples, datasets of which were generated by solving the underlying PDEs using the finite element (FE) framework MOOSE"
@Article{Kopanicakova_2023b,
  author  = {Alena Kopani{\v{c}}{\'{a}}kov{\'{a}} and Rolf Krause},
  title   = {Globally convergent multilevel training of deep residual networks},
  journal = {SIAM Journal on Scientific Computing},
  month   = jun,
  year    = 2023,
  volume  = 45,
  number  = 3,
  pages   = {S254--S280},
  note    = {Special Issue, Copper Mountain 2021, \url{https://doi.org/10.1137/21M1434076}, ArXiv e-print: \url{https://arxiv.org/abs/2107.07572}}
}

% MOOSE
% "Large eddy and RANS simulations from nekRS and Nek5000 are utilized separately to inform low-fidelity simulations performed using finite volume MOOSE Navier-Stokes kernels"
@phdthesis{Iskhakov_thesis,
  author = {Arsen Iskhakov},
  school = {North Carolina State University},
  title  = {Development of data-driven methods for engineering and system scale thermal-hydraulic modeling},
  note   = {\url{https://doi.org/10.13140/RG.2.2.26175.28320}},
  month  = may,
  year   = 2023
}

% MOOSE
% "The objective of this present work is to use ... DOE's NEAMS toolkit built on ... (MOOSE) framework"
% The DOI was not active when I initially checked it.
% https://www.researchgate.net/publication/371737745_Depletion-driven_thermochemistry_of_molten_salt_reactors_review_method_and_analysis
@Article{Walker_2023,
  author  = {Samuel Austin Walker and Mauricio E. Tano and Abdalla Abou-Jaoude and Olin Calvin},
  title   = {Depletion-driven thermochemistry of molten salt reactors: review, method, and analysis},
  journal = {Frontiers in Nuclear Engineering},
  month   = jun,
  year    = 2023,
  volume  = 2,
  pages   = {1214727 (17 pages)},
  note    = {\url{https://doi.org/10.3389/fnuen.2023.1214727}}
}

% MOOSE
% "The implementation of the BVP is carried out in MOOSE..."
@Article{Pachaury_2023,
  author  = {Yash Pachaury and George Warren and Janelle P. Wharry and Giacomo Po and Anter El-Azab},
  title   = {{Plasticity in irradiated FeCrAl nanopillars investigated using discrete dislocation dynamics}},
  journal = {International Journal of Plasticity},
  month   = aug,
  year    = 2023,
  volume  = 167,
  pages   = {103676 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijplas.2023.103676}, ArXiv e-print: \url{https://arxiv.org/abs/2301.01812}}
}

% MOOSE
% "The modular structure of MOOSE readily permits multiphysics simulations and the incorporation of application-specific models such as those used here for material removal."
@Article{MartinezLoran_2023,
  author  = {Erick Martinez-Loran and Alborz Izadi and Amit Jain and Benjamin W. Spencer and Jose Boedo and Eric Hollmann},
  title   = {Development of pebble-based extruded carbon rods for extreme plasma heat flux environments},
  journal = {Journal of Applied Physics},
  month   = jun,
  year    = 2023,
  volume  = 133,
  number  = 24,
  pages   = {245001 (16 pages)},
  note    = {\url{https://doi.org/10.1063/5.0139921}}
}

% MOOSE
% "... the model implementation is ... based on ... (MOOSE)"
@Article{Darabi_2023,
  author  = {Roya Darabi and Erfan Azinpour and Ana Reis and Jose Cesar {de Sa}},
  title   = {Multi-scale multi-physics phase-field coupled thermo-mechanical approach for modeling of powder bed fusion process},
  journal = {Applied Mathematical Modelling},
  month   = oct,
  year    = 2023,
  volume  = 122,
  pages   = {572--597},
  note    = {\url{https://doi.org/10.1016/j.apm.2023.06.021}}
}

% MOOSE/SAM
% "...the measured temperature distributions of the tests are compared to ... a 1D-based model in SAM, ..."
% https://www.osti.gov/biblio/1973839
@TechReport{Jeong_2023,
  author      = {Yeongshin Jeong and Matthew Bucknor and Tyler Sumner and Daniel J. O'Grady and Acacia J. Brunett},
  title       = {{Assessment of sodium thermal stratification models utilizing the TSTF benchmark}},
  institution = {Argonne National Laboratory},
  day         = 28,
  month       = apr,
  year        = 2023,
  number      = {ANL/NSE-23/24},
  note        = {\url{https://doi.org/10.2172/1973839}}
}

% MOOSE
% "The majority of the applications deployed to perform this analysis are developed under the ... (MOOSE) framework"
% https://www.osti.gov/biblio/1983953
@TechReport{Ortensi_2023,
  author      = {Javier Ortensi and Cole Mueller and Stefano Terlizzi and Guillaume Louis Giudicelli and Sebastian Schunert},
  title       = {Fluoride-cooled high-temperature pebble-bed reactor reference plant model},
  institution = {Idaho National Laboratory},
  day         = may,
  month       = 31,
  year        = 2023,
  number      = {INL/RPT-23-72727},
  note        = {\url{https://doi.org/10.2172/1983953}}
}

% MOOSE
% "In this work, a multiphysics reference plant model of the HTR-PM was developed based on ... (MOOSE)"
% https://www.osti.gov/biblio/1984239
@TechReport{Jaradat_2023,
  author      = {Mustafa Kamel {Mohammad Jaradat} and Sebastian Schunert and Javier Ortensi},
  title       = {Gas-cooled high-temperature pebble-bed reactor reference plant model},
  institution = {Idaho National Laboratory},
  day         = 30,
  month       = apr,
  year        = 2023,
  number      = {INL/RPT-23-72192},
  note        = {\url{https://doi.org/10.2172/1984239}}
}

% MOOSE/MOSKITO
% "MOSKITO is a powerful and user-friendly wellbore simulator developed ... on the MOOSE Framework"
% https://doi.org/10.5445/IR/1000159240
% DOI was not active when I initially tried it
% https://www.researchgate.net/publication/371608119_Numerical_Simulation_of_non-isothermal_Complex_Fluid_Mixtures_in_Deep_Geothermal_Systems
@phdthesis{Esmaeilpour_thesis,
  author = {Morteza Esmaeilpour},
  school = {Karlsruhe Institute of Technology},
  title  = {Numerical simulation of non-isothermal complex fluid mixtures in deep geothermal systems},
  note   = {\url{https://tinyurl.com/35r8yhfu}},
  month  = may,
  year   = 2023
}

% MOOSE
% https://www.researchgate.net/publication/371340588_Hybrid_Temperature-Reactivity_PID_Controllers_for_Nuclear_Thermal_Propulsion_Startup
% https://www.ans.org/meetings/nets2023/session/view-1640/#paper_4722
@InProceedings{Laboure_2023b,
  author    = {Vincent M. Labour{\'{e}} and Stefano Terlizzi and Sebastian Schunert},
  title     = {{Hybrid temperature-reactivity PID controllers for nuclear thermal propulsion startup}},
  booktitle = {{Proceedings of Nuclear Emerging Technologies for Space 2023 (NETS 2023)}},
  address   = {Idaho Falls, ID, USA},
  month     = may # {~7--11,},
  year      = 2023,
  note      = {\url{https://tinyurl.com/5n8wnx5z}}
}

% MOOSE
% "Both ... models are numerically implemented by the finite element method within ... NIsoS ... based on the MOOSE framework"
@Article{YYang_2023,
  author  = {Yangyiwei Yang and Timileyin David Oyedeji and Xiandong Zhou and Karsten Albe and Bai-Xiang Xu},
  title   = {{Tailoring magnetic hysteresis of additive manufactured Fe-Ni permalloy via multiphysics-multiscale simulations of process-property relationships}},
  journal = {npj Computational Materials},
  month   = jun,
  year    = 2023,
  volume  = 9,
  pages   = {103 (19 pages)},
  note    = {\url{https://doi.org/10.1038/s41524-023-01058-9}, ArXiv e-print: \url{https://arxiv.org/abs/2302.02217}}
}

% MOOSE/BISON
% "Then, the generated database is used to fit an empirical tFGR model that has been implemented into the ... (Sifgrs) model ... within ... BISON ..."
@Article{Capps_2023,
  author  = {Nathan Capps and Larry Aagesen and David Andersson and Oliver Baldwin and W. Cade Brinkley and Michael W. D. Cooper and Jason Harp and Stephen Novascone and Pierre-Cl{\'{e}}ment A. Simon and Christopher Matthews and Brian D. Wirth},
  title   = {{Empirical and mechanistic transient fission gas release model for high-burnup LOCA conditions}},
  journal = {Journal of Nuclear Materials},
  month   = oct,
  year    = 2023,
  volume  = 584,
  pages   = {154557 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154557}}
}

% MOOSE/BISON
% "For this analysis, the BISON code was used, ..."
@Article{Baghdasaryan_2023,
  author  = {Nairi Baghdasaryan and Wen Jiang and Jason Hales and Tomasz Kozlowski and Zuzanna Krajewska},
  title   = {{TRISO fuel performance analysis: Uncertainty quantification toward optimization}},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2023,
  volume  = 410,
  pages   = {112401 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112401}}
}

% MOOSE
% "In this work, a general-purpose computational electromagnetics module was developed within the MOOSE framework"
@phdthesis{Icenhour_thesis,
  author = {Casey Icenhour},
  school = {North Carolina State University},
  title  = {Development and validation of open source software for electromagnetics simulation and multiphysics coupling},
  note   = {\url{https://www.lib.ncsu.edu/resolver/1840.20/40985}},
  month  = may,
  year   = 2023
}

% MOOSE
% "Based on the MOOSE framework..., a multi-dimensional coupling scheme was proposed and used to couple the neutronics (N), thermal hydraulics (TH) and mechanics (M)"
@Article{Xiang_2023,
  author  = {Fengrui Xiang and Yanan He and Yingwei Wu and Yuhang Niu and Suizheng Qiu and Changbing Tang and Kunpeng Wang and Wenxi Tian and Guanghui Su},
  title   = {Investigation of plate fuel performance under reactivity initiated accidents with developed multi-dimensional coupled method},
  journal = {Journal of Nuclear Materials},
  month   = sep,
  year    = 2023,
  volume  = 583,
  pages   = {154537 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154537}}
}

% Maybe libMesh
% The authors used a commit from the libMesh GitHub repository in the discussion of their results.
@Article{Rosa_2023,
  author  = {Giovanni Rosa and Luca Pascarella and Simone Scalabrino and Rosalia Tufano and Gabriele Bavota and Michele Lanza and Rocco Oliveto},
  title   = {{A comprehensive evaluation of SZZ Variants through a developer-informed oracle}},
  journal = {Journal of Systems and Software},
  month   = aug,
  year    = 2023,
  volume  = 202,
  pages   = {111729 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jss.2023.111729}}
}

% MOOSE/navier_stokes
@Article{Lindsay_2023,
  author  = {Alexander Lindsay and Guillaume Giudicelli and Peter German and John W. Peterson and Yaqi Wang and Ramiro Freile and David Andr{\v{s}} and Paolo Balestra and Mauricio Tano and Rui Hu and Ling Zou and Derek Gaston and Cody Permann and Sebastian Schunert},
  title   = {{MOOSE Navier--Stokes Module}},
  journal = {SoftwareX},
  month   = jul,
  year    = 2023,
  volume  = 23,
  pages   = {101503 (8 pages)},
  note    = {\url{https://doi.org/10.1016/j.softx.2023.101503}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4449290}}
}

% MOOSE/SAM/Cardinal
% "The method has been implemented between the modern STH code SAM and the CFD code NekRS, using the coupling tool Cardinal..."
@Article{Huxford_2023,
  author  = {Aaron Huxford and Victor {Coppo Leite} and Elia Merzari and Ling Zou and Victor Petrov and Annalisa Manera},
  title   = {{A hybrid domain overlapping method for coupling System Thermal Hydraulics and CFD codes}},
  journal = {Annals of Nuclear Energy},
  month   = sep,
  year    = 2023,
  volume  = 189,
  pages   = {109842 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2023.109842}}
}

% libMesh
% This paper uses the libMesh git repository for data mining.
% https://conf.researchr.org/details/msr-2023/msr-2023-technical-papers/21/An-Empirical-Study-of-High-Performance-Computing-HPC-Performance-Bugs
@InProceedings{Azad_2023,
  author    = {Md Abdul Kalam Azad and Nafees Iqbal and Foyzul Hassan and Probir Roy},
  title     = {{An empirical study of high performance computing (HPC) performance bugs}},
  booktitle = {{Proceedings of the 20th International Conference on Mining Software Repositories (MSR 2023)}},
  address   = {Melbourne, Australia},
  month     = may # {~15--16,},
  year      = 2023,
  note      = {\url{https://foyzulhassan.github.io/files/MSR23_HPC.pdf}}
}

% libMesh
% This paper uses the reduced basis method and Minh works for Akselos.
@Article{Pham_2023,
  author  = {Minh Triet Pham and Shinseong Kang and Kyunghoon Lee},
  title   = {Geometric parameterization of unit cell configurations for reduced basis approximation},
  journal = {Computers \& Structures},
  month   = jun,
  year    = 2023,
  volume  = 281,
  pages   = {107005 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.compstruc.2023.107005}}
}

% MOOSE/BISON
% "The mesh setup assumes a smeared pellet using the automatic meshing capability in BISON, ..."
@Article{Cheniour_2023b,
  author  = {Amani Cheniour and Ryan T. Sweet and Andrew T. Nelson and Brandon A. Wilson and Ashley E. Shields},
  title   = {{Sensitivity of UO$_2$ fuel performance to microstructural evolutions driven by dilute additives}},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2023,
  volume  = 410,
  pages   = {112383 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112383}}
}

% MOOSE
% "We used ... (MOOSE) ... to solve the Laplace equation."
@Article{Persky_2023,
  author  = {Eylon Persky and Hyeok Yoon and Yanwu Xie and Harold Y. Hwang and Jonathan Ruhman and Beena Kalisky},
  title   = {Electrostatic modulation of the lateral carrier density profile in field effect devices with nonlinear dielectrics},
  journal = {Physical Review B},
  month   = may,
  year    = 2023,
  volume  = 107,
  number  = 19,
  pages   = {195427 (5 pages)},
  note    = {\url{https://doi.org/10.1103/PhysRevB.107.195427}, ArXiv e-print: \url{https://arxiv.org/abs/2003.01756}}
}

% MOOSE/KRAKEN
% "In this work, we present the solution of contact mechanics finite element problems specifically for soft robots in a MOOSE-based multiphysics simulation platform we developed, Kraken."
@InProceedings{Wandke_2023,
  author    = {Kevin Wandke and {Y Z}},
  title     = {An efficient framework for the solution of contact mechanics problems in soft robotics},
  booktitle = {{Proceedings of the 2023 IEEE International Conference on Soft Robotics (RoboSoft)}},
  address   = {Singapore, Singapore},
  pages     = {xx (7 pages)},
  month     = apr # {~3--7,},
  year      = 2023,
  note      = {\url{https://doi.org/10.1109/RoboSoft55895.2023.10121919}}
}

% IBAMR/libMesh
@Article{Barrett_2023,
  author  = {Aaron Barrett and Jordan A. Brown and Margaret Anne Smith and Andrew Woodward and John P. Vavalle and Arash Kheradvar and Boyce E. Griffith and Aaron L. Fogelson},
  title   = {A model of fluid-structure and biochemical interactions with applications to subclinical leaflet thrombosis},
  journal = {International Journal for Numerical Methods in Biomedical Engineering},
  month   = may,
  year    = 2023,
  volume  = 39,
  number  = 5,
  pages   = {e3700},
  note    = {\url{https://doi.org/10.1002/cnm.3700}, ArXiv e-print: \url{https://arxiv.org/abs/2205.01578}}
}

% libMesh/SCRBE
% The low-rank cavity radiation solver is implemented in SCRBE which is based on libMesh
% author:baburin author:ballani hierarchical block
@Misc{Baburin_2023,
  author       = {Ivan Baburin and Jonas Ballani and John W. Peterson and David Knezevic},
  title        = {Hierarchical block low-rank approximation of cavity radiation},
  month        = may,
  year         = 2023,
  howpublished = {ArXiv e-print},
  note         = {\url{http://arxiv.org/abs/2305.06891}}
}

% MOOSE
% The theoretical model will be implemented using the open-source finite element based MOOSE ... framework."
@Article{Song_2023,
  author  = {Jie Song and Christian Mathew and Kevin Sangoi and Yao Fu},
  title   = {A phase field model to simulate crack initiation from pitting site in isotropic and anisotropic elastoplastic material},
  journal = {Modelling and Simulation in Materials Science and Engineering},
  month   = jul,
  year    = 2023,
  volume  = 31,
  number  = 5,
  pages   = {055002 (21 pages)},
  note    = {\url{https://doi.org/10.1088/1361-651X/acd132}}
}

% MOOSE
@Article{Laboure_2023,
  author  = {Vincent M. Labour{\'{e}} and Sebastian Schunert and Stefano Terlizzi and Zachary M. Prince and Javier Ortensi and Ching-Sheng Lin and Lise M. Charlot and Mark D. DeHart},
  title   = {{Automated power-following control for nuclear thermal propulsion startup and shutdown using MOOSE-based applications}},
  journal = {Progress in Nuclear Energy},
  month   = jul,
  year    = 2023,
  volume  = 161,
  pages   = {104710 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2023.104710}}
}

% IBAMR
% "mesh handling tools in libMesh allows for the use of separate data structures for the volumetric and ... surface structural meshes ..."
@Article{Kolahdouz_2023,
  author  = {Ebrahim M. Kolahdouz and David R. Wells and Simone Rossi and Kenneth I. Aycock and Brent A. Craven and Boyce E. Griffith},
  title   = {{A sharp interface Lagrangian-Eulerian method for flexible-body fluid-structure interaction}},
  journal = {Journal of Computational Physics},
  month   = sep,
  year    = 2023,
  volume  = 488,
  pages   = {112174 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jcp.2023.112174}, ArXiv e-print: \url{https://arxiv.org/abs/2204.12907}}
}

% MOOSE
% "Both approaches are implemented in the open-source finite element framework ... (MOOSE)"
@Article{Recuero_2023,
  author  = {Antonio Recuero and Alexander Lindsay},
  title   = {On practical aspects of variational consistency in contact dynamics},
  journal = {Journal of Computational and Nonlinear Dynamics},
  month   = aug,
  year    = 2023,
  volume  = 18,
  number  = 8,
  pages   = {081003 (8 pages)},
  note    = {\url{https://doi.org/10.1115/1.4056589}, Tech.~Report INL/CON-22-65883: \url{https://www.osti.gov/biblio/1988114}}
}

% MOOSE
% "To demonstrate the flexibility of MMS in verifying these highly coupled systems, ... (MOOSE) framework was utilized..."
@Article{DeChant_2023,
  author  = {Corey DeChant and Casey Icenhour and Shane Keniley and Alexander Lindsay and Grayson Scott Gall and Kimberly Clein Hizon and Davide Curreli and Steven Shannon},
  title   = {Verification methods for drift-diffusion reaction models for plasma simulations},
  journal = {Plasma Sources Science and Technology},
  month   = apr,
  year    = 2023,
  volume  = 32,
  number  = 4,
  note    = {\url{https://doi.org/10.1088/1361-6595/acce65}}
}

% MOOSE
% "All numerical simulations were run using an in-house partial differential equation solver built on MOOSE framework..."
% https://www.researchgate.net/publication/370495046_Revealing_The_Dynamics_of_the_Feb_6th_2023_M78_KahramanmaracsPazarcik_Earthquake_near-field_records_and_dynamic_rupture_modeling
@Article{Abdelmeguid_2023,
  author  = {Mohamed Abdelmeguid and Chunhui Zhao and Esref Yalcinkaya and George Gazetas and Ahmed Elbanna and Ares Rosakis},
  title   = {{Dynamics of episodic supershear in the 2023 M7.8 Kahramanmara{\c{s}}/Pazarcik earthquake, revealed by near-field records and computational modeling}},
  journal = {Communications Earth \& Environment},
  month   = dec,
  year    = 2023,
  volume  = 4,
  pages   = {456 (12 pages)},
  note    = {\url{https://doi.org}, ArXiv e-print: \url{https://arxiv.org/abs/2305.01825}}
}

% MOOSE
% "This model is implemented using the finite element framework MOOSE..."
@Article{Arunachala_2023,
  author  = {Prajwal Kammardi Arunachala and Sina {Abrari Vajari} and Matthias Neuner and Christian Linder},
  title   = {{A multiscale phase field fracture approach based on the non-affine microsphere model for rubber-like materials}},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = may,
  year    = 2023,
  volume  = 410,
  pages   = {115982 (36 pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2023.115982}}
}

% MOOSE/BISON
% "The BISON fuel performance code was used to model the base irradiation..."
@Article{Seo_2023,
  author  = {Seok Bin Seo and Brian D. Wirth},
  title   = {{Sensitivity analysis of cesium and strontium release from TRISO particle under irradiation and high temperature conditions}},
  journal = {Nuclear Engineering and Design},
  month   = jul,
  year    = 2023,
  volume  = 408,
  pages   = {112333 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112333}}
}

% BISON
% "The results of BISON calculations verify the results of the calculations described in Section 5.1..."
% https://www.osti.gov/biblio/1962547
@TechReport{Evans_2023,
  author      = {Jordan A. Evans and Ryan T. Sweet and Dennis D. Keiser},
  title       = {{MARVEL reactor fuel performance report}},
  institution = {Idaho National Laboratory},
  day         = 22,
  month       = mar,
  year        = 2023,
  number      = {INL/RPT-22-68555},
  note        = {\url{https://doi.org/10.2172/1962547}}
}

% MOOSE
@InProceedings{WWang_2023,
  author    = {Weixiang Wang and WenPei Feng and KeFan Zhang and Guangliang Yang and Tao Ding and Hongli Chen},
  title     = {{A MOOSE-based neutron diffusion code with application to a LMFR benchmark}},
  booktitle = {{Proceedings of the 23rd Pacific Basin Nuclear Conference, Volume 1 (PBNC 2022)}},
  address   = {Beijing \& Chengdu, China},
  editor    = {C. Liu},
  pages     = {490--502},
  publisher = {Springer, Singapore},
  month     = apr,
  year      = 2023,
  note      = {\url{https://doi.org/10.1007/978-981-99-1023-6_43}}
}

% MOOSE
% "This paper has developed the neutronics and thermal-fluid coupling code PHEASANT for the prismatic high-temperature gas-cooled reactor, based on ... MOOSE."
@InProceedings{JGuo_2023,
  author    = {Juanjuan Guo and Kun Yan and Pu Tong and Fang He and Shanfang Huang and Kan Wang},
  title     = {Coupled neutronics and thermal-fluid calculation for prismatic high-temperature gas-cooled reactor core at steady state},
  booktitle = {{Proceedings of the 23rd Pacific Basin Nuclear Conference, Volume 3 (PBNC 2022)}},
  address   = {Beijing \& Chengdu, China},
  editor    = {C. Liu},
  pages     = {688--705},
  publisher = {Springer, Singapore},
  month     = apr,
  year      = 2023,
  note      = {\url{https://doi.org/10.1007/978-981-19-8899-8_67}}
}

% MOOSE
% "The proposed mathematical model is implemented into ... (MOOSE)"
@Article{Cao_2023,
  author  = {Daxian Cao and Tongtai Ji and Avtar Singh and Seongmin Bak and Yonghua Du and Xianghui Xiao and Hongyi Xu and Juner Zhu and Hongli Zhu},
  title   = {Unveiling the mechanical and electrochemical evolution of nano silicon composite anodes in sulfide based all-solid-state batteries},
  journal = {Advanced Energy Materials},
  month   = apr,
  year    = 2023,
  volume  = 13,
  numbe   = 14,
  pages   = {2203969 (xx pages)},
  note    = {\url{https://doi.org/10.1002/aenm.202203969}, ChemRxiv e-print: \url{https://doi.org/10.26434/chemrxiv-2023-6qxhb}}
}

% MOOSE
% "We used ... (MOOSE) software to develop the multiphysics model for analyzing the long-term corrosion of copper canisters ..."
@Article{Chae_2023,
  author  = {Nakkyu Chae and Samuel Park and Seungjin Seo and Richard I. Foster and Heejae Ju and Sungyeol Choi},
  title   = {Coupled mixed-potential and thermal-hydraulics model for long-term corrosion of copper canisters in deep geological repository},
  journal = {npj Materials Degradation},
  month   = apr,
  year    = 2023,
  volume  = 7,
  number  = 1,
  pages   = {26 (14 pages)},
  note    = {\url{https://doi.org/10.1038/s41529-023-00345-6}}
}

% MOOSE/Ferret
% "The finite element method (FEM) implementation of this work is available within Ferret ... which is an add-on module for ... (MOOSE)"
@Article{Mangeri_2023,
  author  = {John Mangeri and Davi Rodrigues and Sudipta Biswas and Monica Graf and Olle Heinonen and Jorge {\'{I}}{\~{n}}iguez},
  title   = {{Coupled magneto-structural continuum model for multiferroic BiFeO$_3$}},
  journal = {Physical Review B},
  month   = sep,
  year    = 2023,
  volume  = 108,
  number  = 9,
  pages   = {094101 (xx pages)},
  note    = {\url{https://doi.org/10.1103/PhysRevB.108.094101}, ArXiv e-print: \url{https://www.arxiv.org/abs/2304.00270}}
}

% MOOSE
% "For the numerical modeling, we are using ... DwarfElephant ... which is based on the MOOSE framework"
% Preprint DOI (now forwards to final DOI): https://doi.org/10.5194/gmd-2022-309
@Article{Degen_2023,
  author  = {Denise Degen and Daniel Caviedes Voulli{\`{e}}me and Susanne Buiter and Harrie-Jan {Hendriks Franssen} and Harry Vereecken and Ana Gonz{\'{a}}lez-Nicol{\'{a}}s and Florian Wellmann},
  title   = {Perspectives of physics-based machine learning for geoscientific applications governed by partial differential equations},
  journal = {Geoscientific Model Development},
  month   = dec,
  year    = 2023,
  volume  = 16,
  number  = 24,
  pages   = {7375--7409},
  note    = {\url{https://doi.org/10.5194/gmd-16-7375-2023}}
}

% MOOSE/SAM
@Article{Zhao_2023,
  author  = {Haihua Zhao and Lambert Fick and Alexander Heald and Quan Zhou and Samuel Richesson and Noah Sutton and Brandon Haugh},
  title   = {{Development, verification, and validation of an advanced systems code KP-SAM for Kairos Power fluoride salt-cooled high-temperature reactor (KP-FHR)}},
  journal = {Nuclear Science and Engineering},
  month   = may,
  year    = 2023,
  pages   = {813--839},
  note    = {Special issue on Advanced Reactor Thermal Hydraulics Experiments and Modeling Supporting Verification and Validation Needs, \url{https://doi.org/10.1080/00295639.2022.2106724}}
}

% MOOSE/SAM
@Article{Ooi_2023,
  author  = {Zhiee Jhia Ooi and Thanh Hua and Ling Zou and Rui Hu},
  title   = {{Simulation of the High Temperature Test Facility (HTTF) core using the 2D ring model with SAM}},
  journal = {Nuclear Science and Engineering},
  month   = may,
  year    = 2023,
  volume  = 197,
  number  = 5,
  pages   = {840--867},
  note    = {Special issue on Advanced Reactor Thermal Hydraulics Experiments and Modeling Supporting Verification and Validation Needs, \url{https://doi.org/10.1080/00295639.2022.2106726}}
}

% MOOSE
% "Computation of the trial stress and update of the plastic strain and stress increment were solved numerically with the radial return methods implemented in the MOOSE code"
@Article{Lin_2023,
  author  = {Binbin Lin and Setareh Medghalchi and Sandra Korte-Kerzel and Bai-Xiang Xu},
  title   = {A machine learning enabled image-data-driven end-to-end mechanical field predictor for dual-phase steel},
  journal = {Proceedings in Applied Mathematics and Mechanics},
  month   = mar,
  year    = 2023,
  volume  = 22,
  number  = 1,
  pages   = {e202200110 (6 pages)},
  note    = {\url{https://doi.org/10.1002/pamm.202200110}}
}

% MOOSE/Griffin
@Article{Schunert_2023,
  author  = {Sebastian Schunert and Javier Ortensi and Yaqi Wang and Paolo Balestra and Mustafa Jaradat and Olin William Calvin and Joshua Hanophy and Logan Harbour},
  title   = {{An equilibrium core depletion algorithm for pebble-bed reactors in the Griffin code}},
  journal = {Annals of Nuclear Energy},
  month   = nov,
  year    = 2023,
  volume  = 192,
  pages   = {109980 (15 pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2023.109980}, SSRN preprint: \url{https://doi.org/10.2139/ssrn.4340955}}
}

% BISON
% "3D axisymmetric BISON simulations were performed ..."
% This has a very similar title to Kobayashi_2022b which came out around the same time, but the author list is different.
% https://link.springer.com/referenceworkentry/10.1007/978-3-030-72322-4_205-1
@InCollection{Kobayashi_2023,
  author    = {Kazuma Kobayashi and Dinesh Kumar and Matthew Bonney and Souvik Chakraborty and Kyle Paaren and Syed Alam},
  title     = {{Uncertainty quantification and sensitivity analysis for digital twin enabling technology for accident tolerant fuel: Application for BISON fuel performance code}},
  pages     = {1--13},
  year      = 2023,
  publisher = {Springer, Cham},
  booktitle = {Handbook of Smart Energy Systems},
  editor    = {Michel Fathi and Enrico Zio and Panos M. Pardalos},
  note      = {\url{https://doi.org/10.1007/978-3-030-72322-4_205-1}, ArXiv e-print: \url{https://arxiv.org/abs/2210.07541}}
}

% MOOSE
% "The system of these equations is implemented in ... GOLEM ... built on the object-oriented numerical framework, MOOSE"
% This DOI was not live when I first checked it...
% https://www.researchgate.net/publication/369333171_Numerical_investigation_of_the_effect_of_fluid_pressurization_rate_on_laboratory-scale_injection-induced_fault_slip/references
% https://doi.org/10.1038/s41598-023-30866-8
@Article{Hutka_2023,
  author  = {Gerg{\H{o}} Andr{\'{a}}s Hutka and Mauro Cacace and Hannes Hofmann and Arno Zang and Lei Wang and Yinlin Ji},
  title   = {Numerical investigation of the effect of fluid pressurization rate on laboratory-scale injection-induced fault slip},
  journal = {Scientific Reports},
  month   = mar,
  year    = 2023,
  volume  = 13,
  pages   = {4437 (12 pages)},
  note    = {\url{https://www.nature.com/articles/s41598-023-30866-8}}
}

% MOOSE
% "In order to appropriately simulate these complex physical processes in a wellbore, a finite element code, called MOSKITO ... is developed in ... MOOSE"
@Article{Esmaeilpour_2023,
  author  = {Morteza Esmaeilpour and Maziar {Gholami Korzani} and Thomas Kohl},
  title   = {Stochastic performance assessment on long-term behavior of multilateral closed deep geothermal systems},
  journal = {Renewable Energy},
  month   = may,
  year    = 2023,
  volume  = 208,
  pages   = {26--35},
  note    = {\url{https://doi.org/10.1016/j.renene.2023.03.074}}
}

% MOOSE
% "The combined Cahn-Hilliard equations were solved using the weak form of the residual series of MOOSE's pre-designed Cahn-Hilliard PDEs."
@Article{Farizhandi_2023,
  author  = {Amir Abbas Kazemzadeh Farizhandi and Mahmood Mamivand},
  title   = {Spatiotemporal prediction of microstructure evolution with predictive recurrent neural network},
  journal = {Computational Materials Science},
  month   = apr,
  year    = 2023,
  volume  = 223,
  pages   = {112110 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112110}}
}

% libMesh
% "Our code is based on the finite element libraries libMesh ... and FEniCS."
@Article{Fritz_2023,
  author  = {Marvin Fritz},
  title   = {{Tumor evolution models of phase-field type with nonlocal effects and angiogenesis}},
  journal = {Bulletin of Mathematical Biology},
  month   = apr,
  year    = 2023,
  volume  = 85,
  number  = 6,
  pages   = {44 (xx pages)},
  note    = {\url{https://doi.org/10.1007/s11538-023-01151-6}, ArXiv e-print: \url{https://arxiv.org/abs/2303.10968}}
}

% MOOSE
% "The constitutive model was implemented as a material model in the open-source library, ... (MOOSE)"
@Article{Dhole_2023,
  author  = {Ashish Dhole and Anirban Patra and Rohit Kumar Gupta and Amol Gokhale and Indradev Samajdar},
  title   = {{Surface hardening through oxygen diffusion in niobium: The defining role of stress inhomogeneity in tensile embrittlement}},
  journal = {Materials Science and Engineering: A},
  month   = apr,
  year    = 2023,
  volume  = 870,
  pages   = {144883 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.msea.2023.144883}}
}

% libMesh
% "We note, the discretization of the minimization problem is performed using the
% finite element framework libMesh ..."
% http://www.ddm.org/DD26/Proc-26.php
% http://www.ddm.org/DD26/proceedings/343.pdf
% https://link.springer.com/book/9783030950248
% The conference was apparently held in December 2020, but the Proceedings didn't come out until 2023?
% https://www.math.cuhk.edu.hk/conference/dd26/?Conference-Travel
@InCollection{Kothari_2023,
  author    = {Hardik Kothari and Alena Kopani{\v{c}}{\'{a}}kov{\'{a}} and Rolf Krause},
  title     = {{A multigrid preconditioner for Jacobian-free Newton--Krylov methods}},
  pages     = {365--372},
  year      = 2023,
  publisher = {Springer, Cham},
  booktitle = {Domain Decomposition Methods in Science and Engineering XXVI},
  volume    = 145,
  series    = {Lecture Notes in Computational Science and Engineering},
  editor    = {Susanne C. Brenner and Eric Tsz Shun Chung and Axel Klawonn and Felix Kwok and Jinchao Xu and Jun Zou},
  note      = {\url{https://doi.org/10.1007/978-3-030-95025-5_38}, from the 26th International Conference on Domain Decomposition Methods (DD26), Hong Kong, China, ArXiv e-print: \url{https://arxiv.org/abs/2103.13890}}
}

% libMesh
% "The proposed algorithm is implemented using libMesh ... for the generation of finite element stiffness matrices"
% http://www.ddm.org/DD26/Proc-26.php
% http://www.ddm.org/DD26/proceedings/165.pdf
% https://link.springer.com/book/9783030950248
% https://repository.um.edu.mo/handle/10692/105032
@InCollection{Luo_2023,
  author    = {Li Luo and Xiao-Chuan Cai and David E. Keyes},
  title     = {{A parallel adaptive finite element method for modeling a deformable droplet travelling in air}},
  pages     = {169--176},
  year      = 2023,
  publisher = {Springer, Cham},
  booktitle = {Domain Decomposition Methods in Science and Engineering XXVI},
  volume    = 145,
  series    = {Lecture Notes in Computational Science and Engineering},
  editor    = {Susanne C. Brenner and Eric Tsz Shun Chung and Axel Klawonn and Felix Kwok and Jinchao Xu and Jun Zou},
  note      = {\url{https://doi.org/10.1007/978-3-030-95025-5_16}, from the 26th International Conference on Domain Decomposition Methods (DD26), Hong Kong, China}
}

% MOOSE
% "We choose an open-source FE framework (MOOSE...) to instantiate and solve the numerical model."
% https://www.proquest.com/openview/96ca48c9a647b886b0a6877fb7a23a12
@phdthesis{Kim_thesis,
  author = {Hokon Kim},
  school = {Carnegie Mellon University},
  title  = {Simulations of activity and degradation in solid oxide fuel cells as a function of electrode microstructures},
  note   = {\url{https://tinyurl.com/24hxmcjv}},
  month  = may,
  year   = 2023
}

% MOOSE/Pronghorn
@Article{Kyriakopoulos_2023,
  author  = {Vasileios Kyriakopoulos and Mauricio E. Tano and Aydin Karahan},
  title   = {{Demonstration of Pronghorn's subchannel code modeling of liquid-metal reactors and validation in normal operation conditions and blockage scenarios}},
  journal = {Energies},
  month   = mar,
  year    = 2023,
  volume  = 16,
  number  = 6,
  pages   = {2592 (31 pages)},
  note    = {\url{https://doi.org/10.3390/en16062592}}
}

% MOOSE
% This is a "Mini Review" article. It does not use MOOSE, but MOOSE is mentioned prominently as a key enabler of the SMR market.
@Article{STan_2023,
  author  = {Shaojie Tan and Songbai Cheng and Kai Wang and Xiaoxing Liu and Hui Cheng and Jun Wang},
  title   = {The development of micro and small modular reactor in the future energy market},
  journal = {Frontiers in Energy Research},
  month   = mar,
  year    = 2023,
  volume  = 11,
  pages   = {10 (9 pages)},
  note    = {Special Issue: Horizons in Energy Research 2022, \url{https://doi.org/10.3389/fenrg.2023.1149127}}
}

% MOOSE
% "The numerical simulations for coupled fluid flow and heat transfer processes are carried out with ... TIGER ... which is based on ... MOOSE"
@Article{GYan_2023,
  author  = {G. Yan and B. Busch and R. Egert and M. Esmaeilpour and K. Stricker and T. Kohl},
  title   = {Transport mechanisms of hydrothermal convection in faulted tight sandstones},
  journal = {Solid Earth},
  month   = mar,
  year    = 2023,
  volume  = 14,
  number  = 3,
  pages   = {293--310},
  note    = {\url{https://doi.org/10.5194/se-14-293-2023}, EGUsphere Preprint: \url{https://doi.org/10.5194/egusphere-2022-1185}}
}

% MOOSE
% "In this study, the ... microreactor was investigated by multiphysics simulations ... based on the MOOSE MultiApps system."
@Article{Miao_2023,
  author  = {Yinbin Miao and Kun Mo and Tingzhou Fei and Yan Cao},
  title   = {Multiphysics simulations of self-regulating performance of an optimized molten metal fuel microreactor design},
  journal = {Nuclear Engineering and Design},
  month   = may,
  year    = 2023,
  volume  = 406,
  pages   = {112244 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112244}}
}

% MOOSE
% https://doi.org/10.13140/RG.2.2.28908.85123
@Article{Slaughter_2023,
  author  = {Andrew E. Slaughter and Zachary M. Prince and Peter German and Ian Halvic and Wen Jiang and Benjamin W. Spencer and Somayajulu L. N. Dhulipala and Derek R. Gaston},
  title   = {{MOOSE Stochastic Tools: A module for performing parallel, memory-efficient in situ stochastic simulations}},
  journal = {SoftwareX},
  month   = may,
  year    = 2023,
  volume  = 22,
  pages   = {101345 (6 pages)},
  note    = {\url{https://doi.org/10.1016/j.softx.2023.101345}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4049487}}
}

% MOOSE/Direwolf
@Article{Terlizzi_2023,
  author  = {Stefano Terlizzi and Vincent Labour{\'{e}}},
  title   = {{Asymptotic hydrogen redistribution analysis in yttrium-hydride-moderated heat-pipe-cooled microreactors using Direwolf}},
  journal = {Annals of Nuclear Energy},
  month   = jun,
  year    = 2023,
  volume  = 186,
  pages   = {109735 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2023.109735}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4247825}}
}

% MOOSE/BISON
% "For this paper, a Bison model is constructed..."
% This looks like a conference paper, but I can't tell what conference it is for so I'm listing it as a Tech. Report.
@TechReport{Gleicher_2023,
  author      = {Frederick N. Gleicher and Mustafa Kamel {Mohammad Jaradat} and Sebastian Schunert and Mark D. DeHart},
  title       = {{Thermal analysis of the SIRIUS3 nuclear propulsion fuel calibration experiment}},
  institution = {Idaho National Laboratory},
  day         = 7,
  month       = may,
  year        = 2023,
  number      = {INL/CON-23-70940},
  note        = {\url{https://www.osti.gov/biblio/1957759}}
}

% MOOSE/BISON
% This paper does not directly use BISON, but they do many comparisons to BISON results. I'm on the fence about whether to include this type of reference.
@Article{Brunetto_2023,
  author  = {Edoardo Luciano Brunetto and Alessandro Scolaro and Carlo Fiorina and Andreas Pautz},
  title   = {{Extension of the OFFBEAT fuel performance code to finite strains and validation against LOCA experiments}},
  journal = {Nuclear Engineering and Design},
  month   = may,
  year    = 2023,
  volume  = 406,
  pages   = {112232 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112232}}
}

% Likely MOOSE
@InProceedings{Cumbunga_2023c,
  author    = {Judice Cumbunga and Said Abboudi and Dominique Chamoret and Sudipta Biswas and Samuel Gomes },
  title     = {Numerical modeling of the solid-state sintering process by coupling the thermal and microstructural fields},
  booktitle = {{Advances in Thermal Science and Energy}},
  editor    = {Fazia Ali-Toudert and Abdeslam Draoui and Kamel Halouani and Mohammed Hasnaoui and Abdelmajid Jemni and Loun{\`{e}}s Tadrist},
  pages     = {46--56},
  publisher = {Springer Nature Switzerland},
  month     = dec,
  year      = 2023,
  note      = {Proceedings of JiTH 2022, 15--17 November 2022, Tangier, Morocco, \url{https://doi.org/10.1007/978-3-031-43934-6_5}}
}

% Likely MOOSE
% See also: Cumbunga_2023
@Article{Cumbunga_2023b,
  author  = {Judice Cumbunga and Said Abboudi and Dominique Chamoret},
  title   = {{Numerical modeling and simulation of microstructure evolution during solid-state sintering: Multiphysics approach}},
  journal = {Key Engineering Materials},
  month   = dec,
  year    = 2023,
  volume  = 969,
  pages   = {39--47},
  note    = {\url{https://doi.org/10.4028/p-IDpi6F}}
}

% MOOSE
% "The fully implicit finite element approach and the Newton method are applied to solve the above coupled model, by using the software MOOSE"
% https://www.researchgate.net/publication/369039299_Numerical_modeling_of_the_solid-state_sintering_at_the_microstructural_level_Multiphysics_approach_and_application_to_metal_additive_manufacturing
@InProceedings{Cumbunga_2023,
  author    = {Judice Cumbunga and Said Abboudi and Dominique Chamoret and Samuel Gomes},
  title     = {{Numerical modeling of the solid-state sintering at the microstructural level: Multiphysics approach and application to metal additive manufacturing}},
  booktitle = {{In Proceedings of the Colloque InterUT Syst{\`{e}}mes sures et durables}},
  address   = {Universit{\'{e}} de Technologie de Compi{\`{e}}gne, Paris, France},
  pages     = {hal-04011815 (8 pages)},
  month     = feb,
  year      = 2023,
  note      = {\url{https://tinyurl.com/wsmptmzj}}
}

% MOOSE
% "The framework is implemented and integrated with ... (MOOSE)."
@Article{Patra_2023b,
  author  = {Anirban Patra and Suketa Chaudhary and Namit Pai and Tarakram Ramgopal and Sarthak Khandelwal and Adwitiya Rao and David L. McDowell},
  title   = {{$\rho$-CP: Open source dislocation density based crystal plasticity framework for simulating thermo-mechanical deformation}},
  journal = {Computational Materials Science},
  month   = may,
  year    = 2023,
  volume  = 224,
  pages   = {112182 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112182}, ArXiv e-print: \url{https://arxiv.org/abs/2303.02441}}
}

% MOOSE
% "The models were numerically implemented by FEM in the simulator NIsoS, which was developed by the authors based on the MOOSE framework"
@Article{Fathidoost_2023,
  author  = {Mozhdeh Fathidoost and Yangyiwei Yang and Matthias Oechsner and Bai-Xiang Xu},
  title   = {{Data-driven thermal and percolation analyses of 3D composite structures with interface resistance}},
  journal = {Materials \& Design},
  month   = mar,
  year    = 2023,
  volume  = 227,
  pages   = {111746 (17 pages)},
  note    = {\url{https://doi.org/10.1016/j.matdes.2023.111746}}
}

% MOOSE
% "We adopt ... (MOOSE) ... to implement this PFM."
% author:tang author:yi thermodynamically consistent non-isothermal
@Misc{WTang_2023,
  author       = {Wei Tang and Min Yi and Bai-Xiang Xu and Long-Qing Chen},
  title        = {Thermodynamically consistent non-isothermal phase-field modelling of elastocaloric effect: indirect vs.\ direct method},
  month        = mar,
  year         = 2023,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2303.00309}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4399202}}
}

% MOOSE
% "These equations were implemented in ... (MOOSE)"
@Article{Rizza_2023,
  author  = {Giovanni Rizza and Manuela Galati and Paolo Antonioni and Luca Iuliano},
  title   = {{Effect of the sintering conditions on the neck growth during the powder bed fusion with electron beam (PBF-EB) process}},
  journal = {Journal of Manufacturing and Materials Processing},
  month   = mar,
  year    = 2023,
  volume  = 7,
  number  = 2,
  pages   = {55 (14 pages)},
  note    = {\url{https://doi.org/10.3390/jmmp7020055}}
}

% MOOSE/BISON
% "In order to test the models described in Section 3, BISON was used to simulate the rods in the EBR-II experiment, X441/X441A."
@Article{Matthews_2023,
  author  = {Christopher Matthews and Stephen Novascone and Al Casagranda and Larry Aagesen and Cetin Unal and David Andersson},
  title   = {Development and formulation of physics based metallic fuel models and comparison to integral irradiation data},
  journal = {Journal of Nuclear Materials},
  month   = may,
  year    = 2023,
  volume  = 578,
  pages   = {154343 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154343}}
}

% libmesh
% "... eigenproblem is solved by SLEPc through an interface provided by libMesh"
@Article{Wanai_2023,
  author  = {Li Wanai and Gong Helin and Zhang Chunyu},
  title   = {{Solution of neutron diffusion problems by discontinuous Galerkin finite element method with consideration of discontinuity factors}},
  journal = {ASME Journal of Nuclear Engineering and Radiation Science},
  month   = jul,
  year    = 2023,
  volume  = 9,
  number  = 3,
  pages   = {031503 (7 pages)},
  note    = {\url{https://doi.org/10.1115/1.4055379}, Paper No.\ NERS-21-1114}
}

% MOOSE
% "Centipede implements the ... (FECD) method from ... the MOOSE framework"
@Article{Robbe_2023,
  author  = {Pieterjan Robbe and David Andersson and Luc Bonnet and Tiernan Casey and Michael W. D. Cooper and Christopher Matthews and Khachik Sargsyan and Habib N. Najm},
  title   = {{Bayesian calibration with summary statistics for the prediction of xenon diffusion in UO$_2$ nuclear fuel}},
  journal = {Computational Materials Science},
  month   = jun,
  year    = 2023,
  volume  = 225,
  pages   = {112184 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2023.112184}, ArXiv e-print: \url{https://arxiv.org/abs/2302.10227}}
}

% MOOSE
% "We implement the weak form defined in Eqs. (21) to (24) in MOOSE"
@Article{Peco_2023,
  author  = {Christian Peco and Farshad Ghanbari},
  title   = {Eulerian finite-strain elasticity with phase-field and the reference map technique},
  journal = {Transactions of the Japan Society for Computational Engineering and Science},
  month   = feb,
  year    = 2023,
  volume  = 27,
  number  = 1,
  pages   = {8--13},
  note    = {\url{https://doi.org/10.26207/w4p2-mw24}}
}

% MOOSE/Grizzly
% "For this purpose, we developed a mechanical model accounting for ... damage in concrete using the Grizzly finite element code..."
@Article{Cheniour_2023,
  author  = {Amani Cheniour and Eva Davidson and Yann {Le Pape} and Tara Pandya and Benjamin Collins and Benjamin Spencer and Andrew Godfrey and Mehdi Asgari},
  title   = {A structural model of the long-term degradation of the concrete biological shield},
  journal = {Nuclear Engineering and Design},
  month   = apr,
  year    = 2023,
  volume  = 405,
  pages   = {112217 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112217}}
}

% MOOSE/phase_field
% The kinetic Eqs. (10) and (12) and the auxiliary Eqs. (5) and (6) were solved using ... (MOOSE) Framework"
@Article{XZuo_2023,
  author  = {Xiaojing Zuo and Nele Moelans},
  title   = {{Phase-field study of elastic effects on precipitate evolution in (Al)$_{0.05}$CrFeNi}},
  journal = {International Journal of Mechanical Sciences},
  month   = jun,
  year    = 2023,
  volume  = 247,
  pages   = {108163 (11 pages)},
  note    = {\url{https://doi.org/10.1016/j.ijmecsci.2023.108163}}
}

% MOOSE
% "We used MOOSE ... for the thermal and structural simulations."
@Article{Barua_2023,
  author  = {Bipul Barua and Mark C. Messner},
  title   = {Structural design challenges and implications for high temperature concentrating solar power receivers},
  journal = {Solar Energy},
  month   = feb,
  year    = 2023,
  volume  = 251,
  pages   = {119--133},
  note    = {\url{https://doi.org/10.1016/j.solener.2022.11.027}}
}

% MOOSE
% "All the above models are implemented in the finite element framework MOOSE"
@Article{DHu_2023,
  author  = {Daijun Hu and Nicol{\`{o}} Grilli and Wentao Yan},
  title   = {{Dislocation structures formation induced by thermal stress in additive manufacturing: Multiscale crystal plasticity modeling of dislocation transport}},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = apr,
  year    = 2023,
  volume  = 173,
  pages   = {105235 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2023.105235}}
}

% MOOSE
% "Our two-dimensional codes are based on MOOSE ..."
@Article{Ghanbari_2023,
  author  = {Farshad Ghanbari and Eduardo G. Rodriguez and Daniel Mill{\'{a}}n and Francesco Simonetti and Andrea P. Arg{\"{u}}elles and Christian Peco},
  title   = {Modeling of wave propagation in polycrystalline ice with hierarchical density gradients},
  journal = {Finite Elements in Analysis and Design},
  month   = may,
  year    = 2023,
  volume  = 217,
  pages   = {103916 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.finel.2023.103916}}
}

% IBAMR
% "IBAMR and BeatIt rely on the parallel C++ FE library libMesh..."
@Article{Wells_2023,
  author  = {David Wells and Ben Vadala-Roth and Jae H. Lee and Boyce E. Griffith},
  title   = {A nodal immersed finite element-finite difference method},
  journal = {Journal of Computational Physics},
  month   = mar,
  year    = 2023,
  volume  = 477,
  pages   = {111890 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jcp.2022.111890}, ArXiv e-print: \url{https://arxiv.org/abs/2111.09958}}
}

% MOOSE
% "Governing equations in MOOSE are implemented through assigning a set of Kernels..."
@Article{XTang_2023,
  author  = {X. Tang and M. Hu},
  title   = {A reactive-chemo-mechanical model for weak acid-assisted cavity expansion in carbonate rocks},
  journal = {Rock Mechanics and Rock Engineering},
  month   = jan,
  year    = 2023,
  volume  = 56,
  number  = 1,
  pages   = {515--533},
  note    = {\url{https://doi.org/10.1007/s00603-022-03077-2}}
}

% MOOSE/SAM
@Article{GHu_2023,
  author  = {Guojun Hu and Ling Zou and Daniel J. O'Grady and Rui Hu},
  title   = {{An integrated coupling model for solving multiscale fluid-fluid coupling problems in SAM code}},
  journal = {Nuclear Engineering and Design},
  month   = apr,
  year    = 2023,
  volume  = 404,
  pages   = {112186 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2023.112186}}
}

% MOOSE
% "The solution of the conventional continuum models is obtained using FEM in the MOOSE framework"
@Article{Chen_2023,
  author  = {Hailong Chen and Di Liu and Donglai Liu},
  title   = {A computational framework for modeling thermoelastic behavior of cubic crystals},
  journal = {Journal of Applied Physics},
  month   = jan,
  year    = 2023,
  volume  = 133,
  number  = 3,
  pages   = {035107 (22 pages)},
  note    = {\url{https://doi.org/10.1063/5.0127263}}
}

% MOOSE
% "The introduced model is implemented into the open-source FEM framework ... (MOOSE)"
@Article{Rezaei_2023,
  author  = {Shahed Rezaei and Jacob Niikoi Okoe-Amon and Cerun Alex Varkey and Armin Asheri and Hui Ruan and Bai-Xiang Xu},
  title   = {{A cohesive phase-field fracture model for chemo-mechanical environments: Studies on degradation in battery materials}},
  journal = {Theoretical and Applied Fracture Mechanics},
  month   = apr,
  year    = 2023,
  volume  = 124,
  pages   = {103758 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.tafmec.2023.103758}, SSRN preprint: \url{https://doi.org/10.2139/ssrn.4122071}}
}

% MOOSE
@Article{XChen_2023,
  author  = {Xiaoquan Chen and Peng Du and Rui Tian and Zhuoyao Li and Hongkun Lian and Kun Zhuang and Sipeng Wang},
  title   = {{Study on heat transfer characteristics and structural parameter effects of heat pipe with fins based on MOOSE platform}},
  journal = {Nuclear Engineering and Technology},
  month   = jan,
  year    = 2023,
  volume  = 55,
  number  = 1,
  pages   = {364--372},
  note    = {\url{https://doi.org/10.1016/j.net.2022.09.022}}
}

% MOOSE
% "... MOOSE ... is adopted in this study to capture the sharp gradients in temperature, degree of cure, and velocity in the vicinity of the advancing polymerization front."
@Article{YuanGao_2023,
  author  = {Y. Gao and J. E. Paul and M. Chen and L. Hong and L. P. Chamorro and N. R. Sottos and P. H. Geubelle},
  title   = {Buoyancy-induced convection driven by frontal polymerization},
  journal = {Physical Review Letters},
  month   = jan,
  year    = 2023,
  volume  = 130,
  number  = 2,
  pages   = {028101 (6 pages)},
  note    = {\url{https://doi.org/10.1103/PhysRevLett.130.028101}}
}

% MOOSE
% "Eqs. (43)-(46) were solved in ... MOOSE"
@Article{Chatterjee_2023,
  author  = {Sourav Chatterjee and Daniel Schwen and Nele Moelans},
  title   = {{A computationally efficient and mechanically compatible multi-phase-field model applied to coherently stressed three-phase solids}},
  journal = {Computational Materials Science},
  month   = feb,
  year    = 2023,
  volume  = 218,
  pages   = {111969 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111969}, ArXiv e-print: \url{https://arxiv.org/abs/2301.01747}}
}

% MOOSE/Pronghorn
% "Idaho National Laboratory's Pronghorn code was used as the intermediate-fidelity code for this work."
@Article{Reger_2023,
  author  = {David Reger and Elia Merzari and Paolo Balestra and Sebastian Schunert and Yassin Hassan and Haomin Yuan and Yu-Hsiang Lan and Paul Fischer and Misun Min},
  title   = {Pressure drop correlation improvement for the near-wall region of pebble-bed reactors},
  journal = {Nuclear Technology},
  month   = jan,
  year    = 2023,
  volume  = 209,
  number  = 1,
  pages   = {90--104},
  note    = {\url{https://doi.org/10.1080/00295450.2022.2108688}}
}

% MOOSE
% "The constitutive model has been implemented as a user-defined material model and interfaced with ... (MOOSE)"
@Article{Patra_2023,
  author  = {Anirban Patra and Namit Pai and Parhitosh Sharma},
  title   = {Modeling intrinsic size effects using dislocation density-based strain gradient plasticity},
  journal = {Mechanics Research Communications},
  month   = jan,
  year    = 2023,
  volume  = 127,
  pages   = {104038 (8 pages)},
  note    = {\url{https://doi.org/10.1016/j.mechrescom.2022.104038}, ArXiv e-print: \url{https://arxiv.org/abs/2205.01504}}
}

% MOOSE
% "The electrochemical PF model was implemented using ... (MOOSE)"
@Article{XWu_2023,
  author  = {Xueyang Wu and Iman Abdallah and Wen Jiang and Robert S. Ullberg and Simon R. Phillpot and Adrien Couet and John H. Perepezko and Michael R. Tonks},
  title   = {A phase-field study of stainless-steel oxidation from high-temperature carbon dioxide exposure},
  journal = {Computational Materials Science},
  month   = feb,
  year    = 2023,
  volume  = 218,
  pages   = {111996 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111996}}
}

% MOOSE
% "...the microstructure-informed thermal model was solved numerically in MOOSE"
@Article{Badry_2023,
  author  = {Fergany Badry and Monika Singh and Luis H. Ortega and Sean M. McDeavitt and Karim Ahmed},
  title   = {{An experimentally validated mesoscale model for the effective thermal conductivity of U-Zr fuels}},
  journal = {Journal of Nuclear Materials},
  month   = feb,
  year    = 2023,
  volume  = 574,
  pages   = {154203 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.154203}}
}

% libMesh/IBAMR
% "In total, 336 cases were simulated by open-source software IBAMR based on immersed boundary method."
@Article{ZLin_2023,
  author  = {Zhonglu Lin and Amneet Pal Singh Bhalla and Boyce Griffith and Zi Sheng and Hongquan Li and Dongfang Liang and Yu Zhang},
  title   = {{How swimming style and schooling affect the hydrodynamics of two accelerating wavy hydrofoils}},
  journal = {Ocean Engineering},
  month   = jan,
  year    = 2023,
  volume  = 268,
  pages   = {113314 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.oceaneng.2022.113314}, ArXiv e-print: \url{https://arxiv.org/abs/2209.01590}}
}

% MOOSE
% This application has been developed to couple neutron transport calculations ... to the native heat conduction and tensor mechanics modules provided in ... MOOSE"
% Journal article which is related to the Brooks_2021 conference paper
@Article{Brooks_2023,
  author  = {H. Brooks and A. Davis},
  title   = {{Scalable multi-physics for fusion reactors with AURORA}},
  journal = {Plasma Physics and Controlled Fusion},
  month   = feb,
  year    = 2023,
  volume  = 65,
  number  = 2,
  pages   = {024002 (9 pages)},
  note    = {Special Issue on High Performance Supercomputing (HPC) in Fusion Research 2021, \url{https://doi.org/10.1088/1361-6587/aca998}}
}

% MOOSE
% The model is numerically implemented by the Finite Element Method within the framework of ... (MOOSE)"
@Article{Ruan_2023,
  author  = {Hui Ruan and Shahed Rezaei and Yangyiwei Yang and Dietmar Gross and Bai-Xiang Xu},
  title   = {{A thermo-mechanical phase-field fracture model: Application to hot cracking simulations in additive manufacturing}},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = mar,
  year    = 2023,
  volume  = 172,
  pages   = {105169 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2022.105169}, ArXiv e-print: \url{https://arxiv.org/abs/2208.02336}}
}

% MOOSE
% "The PFM is implemented using ... (MOOSE)
@Article{Sahu_2023,
  author  = {Sarita Sahu and Gerald S. Frankel},
  title   = {Effect of substrate orientation and anisotropic strength on corrosion pits},
  journal = {Corrosion Science},
  month   = feb,
  year    = 2023,
  volume  = 211,
  pages   = {110772 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.corsci.2022.110772}}
}

% MOOSE
% "a Python-based tool that combines an arbitrary number of STL files into an integrated volumetrical mesh that is directly readable by MOOSE"
@Article{Sgarrella_2023,
  author  = {Joe Sgarrella and Farshad Ghanbari and Christian Peco},
  title   = {{I-STL2MOOSE: From STL data to integrated volumetrical meshes for MOOSE}},
  journal = {SoftwareX},
  month   = feb,
  year    = 2023,
  volume  = 21,
  pages   = {101273 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.softx.2022.101273}}
}

% IBAMR/libMesh
% "The numerical study is implemented using the open-source code IBAMR"
@Article{Wei_2023,
  author  = {Chang Wei and Qiao Hu and Shijie Li and Xindong Shi},
  title   = {Hydrodynamic interactions and wake dynamics of fish schooling in rectangle and diamond formations},
  journal = {Ocean Engineering},
  month   = jan,
  year    = 2023,
  volume  = 267,
  pages   = {113258 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.oceaneng.2022.113258}}
}

% MOOSE
% "This paper summarizes our mesoscale phase-field model ... implemented using ... (MOOSE)"
@Article{Bhave_2023,
  author  = {Chaitanya {Vivek Bhave} and Guiqiu Zheng and Kumar Sridharan and Daniel Schwen and Michael R. Tonks},
  title   = {{An electrochemical mesoscale tool for modeling the corrosion of structural alloys by molten salt}},
  journal = {Journal of Nuclear Materials},
  month   = feb,
  year    = 2023,
  volume  = 574,
  pages   = {154147 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.154147}}
}

% MOOSE
% "Our implementation of the phase-field fracture model is based on finite-element library MOOSE"
@Article{Kopanicakova_2023,
  author  = {Alena Kopani{\v{c}}{\'{a}}kov{\'{a}} and Hardik Kothari and Rolf Krause},
  title   = {{Nonlinear field-split preconditioners for solving monolithic phase-field models of brittle fracture}},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = jan,
  year    = 2023,
  volume  = {Volume 403, Part B},
  pages   = {115733 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2022.115733}, ArXiv e-print: \url{https://arxiv.org/abs/2203.13738}}
}

% MOOSE
% "Eqs. (4) and (14) are solved using the finite element method with ... (MOOSE)"
@Article{SZhang_2023,
  author  = {Shuaifang Zhang and Wen Jiang and Kyle A. Gamble and Michael R. Tonks},
  title   = {{Comparing the impact of thermal stresses and bubble pressure on intergranular fracture in UO$_2$ using 2D phase field fracture simulations}},
  journal = {Journal of Nuclear Materials},
  month   = feb,
  year    = 2023,
  volume  = 574,
  pages   = {154158 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.154158}}
}

% BISON
@Article{Toptan_2023,
  author  = {Aysenur Toptan and Wen Jiang and Jason D. Hales and Benjamin W. Spencer and Stephen Novascone},
  title   = {{Verification of Bison fission product species conservation under TRISO reactor conditions}},
  journal = {Journal of Nuclear Materials},
  month   = jan,
  year    = 2023,
  volume  = 573,
  pages   = {154105 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.154105}}
}

% libMesh
% "The code performs the FEM calculations based on the LibMesh library..."
@Article{Akhukov_2023,
  author  = {Mikhail A. Akhukov and Vassily A. Chorkov and Alexey A. Gavrilov and Daria V. Guseva and Pavel G. Khalatur and Alexei R. Khokhlov and Andrey A. Kniznik and Pavel V. Komarov and Mike V. Okun and Boris V. Potapkin and Vladimir {Yu. Rudyak} and Denis B. Shirabaykin and Anton S. Skomorokhov and Sergey V. Trepalin},
  title   = {{MULTICOMP package for multilevel simulation of polymer nanocomposites}},
  journal = {Computational Materials Science},
  month   = jan,
  year    = 2023,
  volume  = 216,
  pages   = {111832 (16 pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111832}}
}

% MOOSE/navier_stokes
@Article{Weiss_2023,
  author  = {Abdullah Weiss and Laith Zaidan and Mohammad {Bani Ahmad} and M. Gomaa Abdoelatef and John W. Peterson and Alexander D. Lindsay and Fande Kong and Karim Ahmed and Mark Kimber},
  title   = {{Characterization of the finite element CFD capabilities in the Multiphysics Object Oriented Simulation Environment}},
  journal = {Journal of Nuclear Engineering and Radiation Science},
  month   = apr,
  year    = 2023,
  volume  = 9,
  number  = 2,
  pages   = {021402 (25 pages)},
  note    = {NERS-21-1170, \url{https://doi.org/10.1115/1.4054685}}
}
